HomeMy WebLinkAbout28-2000-Electronic-Video-Management-Systems-(Part-of-FSB-26-0000)_Rev_1Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
i of ii
SECTION 28 2000
ELECTRONIC VIDEO MANAGEMENT SYSTEM
(sub-contract to ELECTRICAL DIVISION 26)
PART 1 – GENERAL
1.01 FILED SUB-BID REQUIREMENTS .............................................................................................. 1
1.02 RELATED DOCUMENTS ............................................................................................................. 1
1.03 SUMMARY .................................................................................................................................... 1
1.04 DEFINITIONS................................................................................................................................ 2
1.05 RELATED SECTIONS .................................................................................................................. 3
1.06 REFERENCES .............................................................................................................................. 3
1.07 GENERAL COORDINATION PROCEDURES ............................................................................. 3
1.08 COORDINATION DRAWINGS ..................................................................................................... 4
1.09 REQUEST FOR INFORMATION (RFI) ......................................................................................... 4
1.10 PROJECT MEETINGS .................................................................................................................. 4
1.11 SHOP DRAWINGS & EQUIPMENT SUBMITTAL ........................................................................ 5
1.12 OPERATIONS AND MAINTANANCE MANUALS ........................................................................ 5
1.13 WARRANTY .................................................................................................................................. 5
1.14 TESTING ....................................................................................................................................... 5
1.15 TRAINING ..................................................................................................................................... 5
1.16 OWNER’S RIGHT TO USE EQUIPMENT .................................................................................... 5
1.17 PERFORMANCE REQUIREMENTS ............................................................................................ 5
PART 2 – PRODUCTS
2.01 GENERAL ..................................................................................................................................... 8
2.02 VIDEO MANAGEMENT SYSTEM SOFTWARE ........................................................................... 9
2.03 CLIENT WORKSTATIONS ......................................................................................................... 14
2.04 VIDEO MANAGEMENT SYSTEM SERVER (HARWARE) ........................................................ 15
2.05 PoE++ SWITCHES ..................................................................................................................... 16
2.06 KEYBOARD/VIDEO/MOUSE(KVM) ........................................................................................... 19
2.07 MONITORS ................................................................................................................................. 19
2.08 5MP IP DOME CAMERAS WITH IR ILLUMINATION AND WDR .............................................. 20
2.09 180-DEGREE CAMERA ............................................................................................................. 25
2.10 PANORAMIC DUAL 2MPx2MP IP DOME NETWORK CAMERA .............................................. 28
2.11 EXTERIOR PTZ CAMERA .......................................................................................................... 34
2.12 1080p FIXED IP DOME NETWORK CAMERA .......................................................................... 39
2.13 360-DEGREE CAMERA – 8MP .................................................................................................. 46
2.14 ELEVATOR CAMERA ................................................................................................................. 55
2.15 FIBER OPTIC MEDIA CONVERTER ......................................................................................... 59
2.16 ELEVATOR CAMERA COAX CONVERTER .............................................................................. 60
2.17 ETHERNET PoE++ (POWER OVER ETHERNET) EXTENDERS ............................................. 60
2.18 MOUNTING HARDWARE ........................................................................................................... 61
2.19 PATCH PANELS ......................................................................................................................... 62
2.20 RACKS ........................................................................................................................................ 63
2.21 SOFTWARE LISCENSING ......................................................................................................... 65
2.22 INFRASTRUCTURE AND CONNECTIVITY ............................................................................... 65
PART 3 – EXECUTION
3.01 GENERAL ................................................................................................................................... 65
3.02 SYSTEM CONFIGURATION ...................................................................................................... 65
3.03 EQUIPMENT, RACK AND CONSOLE INSTALLATION ............................................................. 66
3.04 GROUNDING PROCEDURES ................................................................................................... 66
3.05 WIRE AND CABLE INSTALLATION PRACTICES ..................................................................... 66
3.06 DATABASE PREPARATION, CHECKING, AND ACTIVATION ................................................. 66
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
ii of ii
3.07 START-UP RESPONSIBILITY .................................................................................................... 66
3.08 SYSTEM PERFORMANCE TESTING AND ADJUSTING PROCEDURES ............................... 66
3.09 BURN-IN PERIOD ...................................................................................................................... 66
3.10 FINAL PROCEDURES ................................................................................................................ 66
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
1 of 67
SECTION 28 2000
ELECTRONIC VIDEO MANAGEMENT SYSTEM
(sub-contract to ELECTRICAL DIVISION 26)
PART 1 - GENERAL
1.01 FILED SUB-BID REQUIREMENTS
A. Filed Sub-Sub-Bid Requiring a Paragraph “E” LISTING on the FORM FOR SUB-BID required
per M.G.L. Chapter 149 Section 44A to 44L, as amended to date. The Electrical Subcontractor
will be responsible for all related building preparation and coordination, see specification for additional Paragraph “E” Listing requirements of the Listed Systems Contractor, and
coordination of responsibilities.
B. Section 28 0000 “ELECTRONIC SECURITY SYSTEM GENERAL”, Section 28 1000 “ELECTRONIC ACCESS CONTROL SYSTEM”, Section 28 1100 “INTRUSION DETECTION SYSTEM”, Section 28 1200 “INTERCOM AND EMERGENCY PHONE SYSTEM”, Section 28 2000 “ELECTRONIC VIDEO MANAGEMENT SYSTEM”, and Section 28 4000 “ELECTRONIC
SECURITY SYSTEMS TESTING, TRAINING, CLOSEOUT AND WARRANTY” shall be a Filed
Sub-Sub Bid of Section 26 0000 “ELECTRICAL”, requiring a Paragraph “E” Listing on the
FORM FOR SUB-BID.
C. The work in this is Section shall be provided by a trained and certified Company (or Security
Subcontractor) in the Systems they are providing.
D. The Security Subcontractor shall be DCAMM Certified by the state of Massachusetts Division
of Capital Asset Management and Maintenance, in the category of: ALARM SYSTEMS, and
shall hold a current S-License per the requirements of the Commonwealth of Massachusetts.
E. A single Security Subcontractor shall be responsible for the DIV28 contract in its entirety as
included in these contract documents.
1.02 RELATED DOCUMENTS
A. Drawings and general provisions of the Contract, including General and Supplementary
Conditions and other Division 01 Specification Sections, apply to this Section.
1.03 SUMMARY
A. This Specification Section 28 2000 includes the furnishing, installation, programming,
commissioning, training, closeout and warranty of the following:
1. Electronic Video Management System
B. The Electronic Video Management System may herein be referred to as the VMS.
C. This Specification Section contains the requirements of the furnishing, installation and
programming of a complete and functioning Electronic Video Management System as
described by these contract documents.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
2 of 67
D. The Security Subcontractor shall furnish and install all required software and software licensing
required for a complete and fully functional system that will be utilized on site as well as be
accessed from remote locations by credentialed parties.
E. The Security Subcontractor shall provide and install all, mounting hardware, special boxes,
connectors, wire and cabling, appurtenances and accessories required for a fully functional
and installed Electronic Video Management System.
F. Related Requirements:
1. Section 01 3200 "Construction Progress Documentation" for preparing and submitting
Security Subcontractor's construction schedule.
2. Section 01 7300 "Execution" for procedures for coordinating general installation and
field-engineering services, including establishment of benchmarks and control points.
3. Section 01 7700 "Closeout Procedures" for coordinating closeout of the Contract.
4. Section 01 9113 "General Commissioning Requirements" for coordinating the Work with
Owner's Commissioning Authority.
1.04 DEFINITIONS
A. BIM: Building Information Modeling.
B. RFI: Request for Information. Request from Owner, General Contractor, Architect, or Security
Subcontractor seeking information required by or clarifications of the Contract Documents.
C. ACS: Access Control System
D. IDS: Intrusion Detection System
E. ICS: Intercom System
F. EPS: Emergency Phone System
G. VMS: Video Management System
H. ESS: Electronic Security System
I. Credential: Data assigned to an entity and used to identify that entity
J. Additional Terms:
1. "Furnish" - Purchase and deliver to the project site complete with every necessary
appurtenance and support, all as part of the Work. Purchasing shall include payment of
all sales taxes and other surcharges as may be· required to assure that purchased
items are free of all liens, claims, or encumbrances.
2. "Install" - Unload at the delivery point at the site and perform every operation necessary
to establish secure mounting and correct operation at the proper location in the project,
all as part of the Work.
3. "New" - Manufactured within the past year and never before used. Not augmented by
the Security Subcontractor post receipt.
4. “Provide”: As used herein shall mean furnish, install, commission (if not under contract
of a commissioning agent), test, close out and warranty complete.
5. “Infrastructure”: As used herein shall mean cable, conduit, and raceway with all required
boxes, fittings, connectors, and accessories; completely installed.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
3 of 67
1.05 RELATED SECTIONS
A. Division 01
B. Division 08 Door Hardware
C. Division 26 Electrical
D. Division 27 Communications
E. 28 0000 Electronic Security Systems General
F. 28 1000 Electronic Access Control System
G. 28 1100 Intrusion Detection System
H. 28 1200 Intercom and Emergency Phone System
I. 28 4000 Electronic Security System Testing, Training, Closeout and Warranty
1.06 REFERENCES
A. All work shall be in accordance with, but not limited to, the following:
1. The National Electrical Code
2. American National Standards Institute (ANSI)
3. National Electrical Manufacturers Association (NEMA)
4. Telecommunications Industries Association (TIA)
5. Institute of Electrical & Electronics Consultants (IEEE)
6. Underwriters Laboratories (UL)
7. Federal Communications Commission (FCC)
8. Occupational Safety and Health Administration (OSHA)
9. Americans with Disabilities Act (ADA)
10. Local city and county ordinances
B. In the event of conflict of code, the more stringent shall apply.
1.07 GENERAL COORDINATION PROCEDURES
A. Coordination: Coordinate construction operations included in project Sections of the
Specifications to ensure efficient and orderly installation of each part of the Work. Coordinate
construction operations included in different Sections that depend on each other for proper
installation, connection, and operation.
1. Schedule construction operations in sequence required to obtain the best results, where
installation of one part of the Work depends on installation of other components, before
or after its own installation.
2. Coordinate installation of different components to ensure maximum performance and
accessibility for required maintenance, service, and repair.
3. Make adequate provisions to accommodate items scheduled for later installation and
coordinate as necessary.
B. Coordination of Multiple Contracts: Each Security Subcontractor shall cooperate with Project
coordinator, who shall coordinate its construction operations with those of other Security
Subcontractors and entities to ensure efficient and orderly installation of each part of the Work.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
4 of 67
Each Security Subcontractor shall coordinate its own operations with operations included in
different Sections that depend on each other for proper installation, connection, and operation.
1. Schedule construction operations in sequence required to obtain the best results, where
installation of one part of the Work depends on installation of other components, before
or after its own installation.
2. Coordinate installation of different components with other Security Subcontractors to
ensure maximum performance and accessibility for required maintenance, service, and
repair.
3. Make adequate provisions to accommodate items scheduled for later installation.
C. Prepare memoranda for distribution to each party involved, outlining special procedures
required for coordination. Include such items as required notices, reports, and list of attendees
at meetings.
1. Prepare similar memoranda for Owner and separate Security Subcontractors if
coordination of their Work is required.
D. Administrative Procedures: Coordinate scheduling and timing of required administrative
procedures with other construction activities and scheduled activities of other Security
Subcontractors to avoid conflicts and to ensure orderly progress of the Work. Such
administrative activities include, but are not limited to, the following:
1. Examination of General Contractors project schedule and highlighting any potential
conflicts of deficiencies in order to execute the work in this Section.
2. Preparation of the schedule of values if required by General Contractor.
3. Creation, delivery and processing of submittals.
4. Progress and coordination meetings.
5. Preinstallation conferences.
6. Project closeout activities.
7. Startup and adjustment of systems.
1.08 COORDINATION DRAWINGS
A. Coordination Drawings, General: Prepare coordination drawings according to requirements in
individual Sections, and additionally where installation is not completely indicated on Shop
Drawings, where limited space availability necessitates coordination, or if coordination is
required to facilitate integration of products and materials fabricated or installed by more than
one entity.
1.09 REQUEST FOR INFORMATION (RFI)
A. Immediately on discovery of the need for additional information, clarification, or interpretation
of the Contract Documents, Security Subcontractor shall prepare and submit an RFI in the
form specified.
B. Architect shall return without response those RFIs submitted to Architect by other entities
controlled by Security Subcontractor.
C. On receipt of Architect's and General Security Subcontractor's action, update the RFI log and
immediately distribute the RFI response to affected parties. Review response and notify
Architect and General Security Subcontractor within seven days if Security Subcontractor
disagrees with response.
1.10 PROJECT MEETINGS
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
5 of 67
A. General: General Contractor shall schedule and conduct meetings and conferences at Project
site unless otherwise indicated.
1. Attendees: Inform participants and others involved, and individuals whose presence is
required, of date and time of each meeting. Notify Owner and Architect of scheduled
meeting dates and times a minimum of 10 working days prior to meeting.
2. Agenda: Prepare the meeting agenda. Distribute the agenda to all invited attendees.
3. Minutes: Entity responsible for conducting meeting will record significant discussions
and agreements achieved. Distribute the meeting minutes to everyone concerned,
including Owner, General Security Subcontractor, and Architect, within three days of the
meeting.
B. Preconstruction Conference: General Contractor (or Security Subcontractor) shall schedule
and conduct a preconstruction conference before starting construction, at a time convenient to
Owner and Architect, but no later than 15 days after execution of the Agreement.
1.11 SHOP DRAWINGS & EQUIPMENT SUBMITTAL
A. In accordance with Section 28 0000, Security System General Requirements, and 28 4000
Electronic Security Systems Testing, Training, Closeout and Warranty
1.12 OPERATIONS AND MAINTANANCE MANUALS
A. In accordance with Section 28 0000, Security System General Requirements, and 28 4000
Electronic Security Systems Testing, Training, Closeout and Warranty.
1.13 WARRANTY
A. In accordance with Section 28 0000, Security System General Requirements, and 28 4000
Electronic Security Systems Testing, Training, Closeout and Warranty.
1.14 TESTING
A. In accordance with Section 28 0000, Security System General Requirements, and 28 4000
Electronic Security Systems Testing, Training, Closeout and Warranty.
1.15 TRAINING
A. In accordance with Section 28 0000, Security System General Requirements, and 28 4000
Electronic Security Systems Testing, Training, Closeout and Warranty.
1.16 OWNER’S RIGHT TO USE EQUIPMENT
A. The Owner reserves the right to use equipment, material and services provided as part of this
work prior to Acceptance of the Work, without incurring additional charges and without
commencement of the Warranty period.
1.17 PERFORMANCE REQUIREMENTS
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
6 of 67
A. The performance requirements found in these contract documents shall be used as basis of
systems for the new Electronic Video Surveillance System to be installed under this contract.
The functional basis of this design is Genetec Video Management Platform.
B. The Electronic Video Management System (VMS) programming at the Dennis-Yarmouth
Intermediate Middle School shall have similar attributes and formatting to the Dennis-Yarmouth
School District other district properties programming standards and nomenclature. Coordinate
with Architect.
C. The VMS POE++ Switches shall not have more than 22 Cameras with two (2) spare ports per
storage unit and switches to lessen the single point of failure risks to the whole system.
D. The VMS System shall be self-balancing and manage resources and load to the system.
E. The Security Subcontractor shall provide a System that will, at completion of the furnishing,
installation and programming, be accessible and useable by outside credentialed parties, such
as the Dennis-Yarmouth Police Department, utilizing a single graphical user interface with
identical controls to view the cameras at the Dennis-Yarmouth Intermediate Middle School
Video Management System.
F. The VMS shall record images delivered by field cameras as shown in the contact documents
G. The VMS Software shall be used to view live video streams and recorded video locally or from
a remote location. The System shall have a client/server-based architecture that may be
utilized as a standalone system on the site, or as a networked system that is connected
outside of the facility via TCP/IP configuration
H. The VMS shall contain a robust list of camera manufacturers that it supports and have the
capability of SDK development to ensure flexibility.
I. The VMS system shall utilize standard Common Off the Shelf components including
workstations, servers and storage equipment. All workstations shall have a minimum of 16GB
RAM, shall be i7 Processors and full form factor machines. Small Form factor workstations are
not allowed and unacceptable. All Servers shall be 32GB RAM and a minimum i7 Processors.
J. Video Servers and Storage
1. The Video Management System Server Processor and Storage/Archiver Hardware shall
have sufficient memory, plus 25% spare capacity, for all cameras (by camera or sensor
for multi-sensor cameras) to record at 15 Frames per second at 4CIF, for minimum of 45
Days, High Definition Resolution of 1280x1080 minimum, compression to be H.264-15
(High Quality) recording 70% of the time, and have sufficient processing speed and
capacity, sufficient video cards and network interface cards for specified function.
Servers require a minimum of two (2) Network Interface Cards (NIC), and shall be a
minimum of 2U.
K. The VMS shall have video motion detection programmed by the Security Subcontractor on the
Camera side AND the Server side of the system as part of this contract.
L. The VMS shall be based on a true open architecture that shall allow the use of non-proprietary
workstation and server hardware, non-proprietary network infrastructure, and non-proprietary
storage.
M. The VMS shall offer a complete and scalable video surveillance solution that shall allow
cameras to be added on a unit-by-unit basis.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
7 of 67
N. The VMS shall integrate decoders using the native SDK or using the following industry
standards to interface:
1. ONVIF
O. All video streams supplied from analog cameras or IP cameras shall be digitally encoded in
H.265, H.264, MPEG-4, MPEG-2, MJPEG, MxPEG, Wavelet, or JPEG2000 compression
formats and recorded simultaneously in real time.
P. The VMS shall be able to use multiple CCTV keyboards to operate the entire set of cameras
throughout the system, including brands of cameras from various manufacturers and including
their PTZ functionalities.
Q. The VMS shall be able to retrieve and set the current position of PTZ cameras using XYZ
coordinates.
R. The VMS shall support PTZ camera protocols from multiple manufacturers, including analog
and IP protocols.
S. The VMS shall arbitrate the user conflict on PTZ usage based on user levels per camera.
T. Cybersecurity
1. All default passwords shall be changed to the Owners specification on the camera side
of the system AND the server side of the system.
2. All firewall configurations shall be coordinated with the Owner’s IT Department.
3. The Security Subcontractor shall submit at the end of the project, all usernames and
passwords used during construction.
4. The Security Subcontractor is required to set up and program a main central NTP on all
servers to the specification of the Owners IT Department.
5. The Security Subcontractor shall program system logs to notify the Owner’s IT
Department of any and all failures and the root causes. This may be accomplished with
add-on software packages to the Servers.
6. The Security Subcontractor SHALL NOT leave a generic default username and
password for service and warranty work. The Security Subcontractor shall program all
user names and passwords to the Owners IT Department Specification on the Head
End Side and the Field Device Side.
7. The Security Subcontractor shall have sufficient Qualified and Certified Technicians in the programming discipline to program ALL systems utilizing NIST Cybersecurity
standards and procedures.
8. The VMS shall be an IP enabled solution, and be based on standard TCP/IP protocol
using TLS encryption with digital certificates to secure the communication channel.
9. The VMS shall support only secured media stream requests, unless explicitly configured
otherwise. Secured media stream requests shall be secured with strong certificate-
based authentication leveraging RTSPS (RTSP over TLS). Client authentication for
media stream requests is claims-based and may use a limited lifetime security token.
10. The VMS shall offer the ability to encrypt the media stream, including video, audio, and
metadata with authenticated encryption. Media stream encryption shall be done at rest
and in transit and be a certificate-based AES 128-bits encryption.
11. The VMS shall:
a. Allow encryption to be set on a per camera basis for all or some of the cameras.
b. Provide up to 20 different certificates for different groups of CSA or users who have
been granted access to decrypted streams.
c. Not decrease the recording performance by more than 50% when encryption is
enabled.
d. Use Secure RTP (SRTP) to encrypt the payload of a media stream in transit and
allow multicast and unicast of the encrypted stream.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
8 of 67
e. Use a random encryption key and change periodically.
f. Allow encrypted streams to be exported.
U. The VMS shall support end to end encrypted streams with cameras supporting Secure RTP
(SRTP) both in unicast and multicast from the camera.
V. The VMS shall provide recommendations relating to the passwords used to access the
hardware units in the system. The recommendation should display if the passwords used on
the units are weak, average, strong, or very strong.
W. The VMS software shall have the ability to run concurrent multiple client applications with
limited degradation to the system. The VMS System shall support a minimum of 10 concurrent
Clients.
X. The VMS Client software shall be able to view live video, recorded video, and shall be
configurable from a single application or location.
Y. The VMS shall provide dynamic maps to provide hyper-link connections to specific camera
locations.
PART 2 - PRODUCTS
2.01 GENERAL
A. This Specification Section covers the furnishing, installation and programming of a Video
Management System in accordance with these contract documents.
B. The Security Subcontractor shall provide all labor, hardware, software and firmware, wiring
and cabling, and miscellaneous materials for a complete and function system per the contract
documents.
C. The Video Management Platform Software Only shall be Genetec Omnicast Version 5.8
Professional, Milestone Xprotect Expert, American Dynamics, Victor Enterprise OR EQUAL.
D. The Video Management Hardware Servers/Archivers shall be agnostic and allow for the owner
to install a different Video Management Platform if desired.
E. The Security Subcontractor shall provide labor, materials, equipment, wiring and software
programming as necessary to provide a complete system as described herein and as shown
on the drawings.
1. The VMS components provided under this scope of work shall function as an integral
part of the Electronic Security Management System.
2. New devices shall be provided, installed and connected to the new system POE++
Switches, Servers and Active Directory Database through the internal and external
Infrastructure and LAN.
3. Security Subcontractor shall be responsible for providing equipment, hardware, storage
capacity, licenses and software to achieve the specified system performance described
in the contract documents.
4. Security Subcontractor shall ensure system additions and modifications provided under
this scope of work have no negative effect on the School Districts Network
Infrastructure.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
9 of 67
F. Purpose
1. The System shall provide the ability to record images received from cameras located
throughout the new Dennis-Yarmouth Intermediate Middle School in a digital format.
2. The System shall allow operators to view live and recorded video images in single and
multiple-camera formats based on parameters requested by the user.
3. The System shall provide the ability to utilize archived information for live incident,
forensic or situational awareness purposes.
4. The System shall be able to be viewed and reviewed from remote locations by
credentialed users, when connectivity is established between facilities.
G. Environment
1. The System shall be wholly contained within the Dennis-Yarmouth Intermediate Middle
School facility, but may also be viewed via fiber or media connectivity.
2. Video Processing, Recording and Archiving shall be distributed, and located in
MDF/IDF/Electrical Rooms, as shown on the contract drawings.
3. The MDF shall serve as the Central Administrative point, and the video management
service application is to be distributed via internal LAN to those workstations that have
been credentialed and licensed to do so. Remote Access with Video Clients shall be
allowed to credentialed users.
2.02 VIDEO MANAGEMENT SYSTEM SOFTWARE
A. The Video Management System shall be an enterprise class IP-enabled Video software
solution.
B. The Video Management System shall support the seamless integration of other Electronic
Security Systems with the Video Management System
C. Functionalities available with the Video Management System shall include:
1. Configuration of integrated systems such as Access Control, Intrusion Detection,
Intercom/Video Intercom and Emergency Phone Systems.
2. Live event monitoring.
3. Live video monitoring and playback of archived video.
4. Alarm management.
5. Reporting, including creating custom report templates and incident reports
6. Global monitoring, reporting, and alarm management of multiple remote and
independent Access Control and/or Video Management systems spread across multiple
School District facilities.
7. Microsoft Active Directory integration for synchronizing user accounts.
8. Intrusion device and panel integration (live monitoring, reporting, and arming/disarming).
9. Integration to third party systems and databases via plug-ins (access control, video
analytics, point of sale, and more).
10. Dynamic graphical map viewing.
11. Asset management system integration.
D. Licensing
1. A single central license shall be applied centrally on the configuration server.
2. There shall be no requirement to apply a license at every server computer or client
workstation.
3. Based on selected options, one or more embedded systems shall be enabled or
disabled.
E. Hardware and Software Requirements
1. The Video Management System and embedded systems shall be designed to run on a
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
10 of 67
standard PC-based platform loaded with a Windows operating system. (See
Workstation and Server Requirements)
2. The server software module (SSM) shall be compatible with 64-bit operating systems
including Windows 10 and Windows Server 2019 or later. Refer to Manufacturer’s latest
workstation, server, and operating systems specifications for more information.
3. The client modules shall run on Windows 10.
4. The core client/server software shall be built in its entirety using the Microsoft .NET
software framework and the C# (C-Sharp) programming language.
5. The Video Management System server(s) shall be built on Microsoft’s SQL 2017 or
2019.
6. The Video Management System shall be compatible with virtual environment including
VMware 6.x.
7. The Video Management System shall use the latest user interface (UI) development and
programming technologies such as Microsoft WPF (Windows Presentation Foundation),
the XAML markup language, and .NET software framework.
F. Third Party System Integration
1. The Video Management System shall support multiple approaches to integrating third
party systems. These shall include: Software Development Kits (SDKs), Driver
Development Kits (DDKs), and more.
2. The Video Management System architecture shall support the addition of new
connectors to integrate to third party system integration such as:
a. Third party video systems.
b. Third party access control systems.
c. Third party Intrusion Detection Systems.
G. Alarm Management
1. The Video Management System shall allow for third party Alarm Management Systems
Integration
2. The Video Management System shall support the following Alarm Management
functionality:
a. Create and modify user-defined alarms. An unrestricted number of user-defined
alarms shall be supported.
b. Assign a time schedule or a coverage period to an alarm. An alarm shall be
triggered only if it is a valid alarm for the current time period.
c. Set the priority level of an alarm and its reactivation threshold.
d. Define the time period after which the alarm is automatically acknowledged.
e. Define the recipients of an alarm. Alarm notifications shall be routed to one or
more recipients. Recipients shall be assigned a priority level which prioritizes the
order of reception of an alarm.
f. Define the alarm broadcast mode. Alarm notifications shall be sent using either a
sequential or an all-at-once broadcast mode.
g. Define whether to display the source of the alarm, one or more entities, or an
HTML page.
h. Specify whether an incident report is mandatory during acknowledgment.
3. Alarms shall be federated allowing global alarm management across multiple
independent USP, ACS, and VMS systems.
4. The Video Management System shall also support alarm notification to an email
address or any device using the SMTP protocol.
5. The ability to create alarm-related instructions shall be supported through the display of
one or more HTML pages following an alarm event. The HTML pages shall be user-
defined and can be interlinked.
6. Alarm unpacking and packing shall be supported where all the entities associated to an
alarm can be display in the Surveillance UI with the single click of button.
7. User shall have the ability to acknowledge alarms, create an incident upon alarm
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
11 of 67
acknowledgement, and put an alarm to snooze.
8. A user must be able to investigate an alarm without acknowledging it
H. System Requirements
1. The Video Management System shall be a software package for comprehensive
management of live and recorded video, and associated data.
2. The Video Management System software shall have a client/server-based architecture.
3. The system may be configured as a standalone system (with the client software
operating concurrently on the server hardware), the client software running on one or
more network-connected TCP/IP workstations, or any combination thereof.
4. The Video Management System shall be able to run concurrently on multiple client
workstations that shall be capable of simultaneously viewing live and/or recorded video
from one or more servers.
5. Multiple servers shall also be capable of simultaneously providing live and/or recorded
video to one or more client workstations.
I. General Software Functionality
1. The Video Management System shall support monitoring of video from IP cameras and
encoding devices and data in real time over local and wide area networks
2. The Video Management System shall support single-screen administration across
multiple servers and systems
3. The Video Management System shall support data integration with access control
systems
4. The Video Management System shall support e-mail and text (SMS) notifications
5. The Video Management System shall offer an open architecture supporting IP cameras
and encoders using standard ONVIF protocols
6. The Video Management System shall be configurable for recording based on video
motion detection, so that video shall be recorded when the system detects motion within
user-defined regions of interest within each camera’s Field-of-View (FoV). The system
shall also record pre-event and post-event video based on user-defined operating
parameters
7. The Video Management System shall have video management features for monitoring
video status of cameras based on user-defined operating parameters. Users shall have the ability to configure the system to annunciate “Loss of Video” status on one or more
Video Management System clients by way of an on-screen visual indicator.
8. The Video Management System Client software shall support running multiple instances
of the Video Management System Client application simultaneously on a single
workstation for display on multiple monitors.
9. Video Streaming
a. Video formats supported: MJPEG, H.264
b. Each video stream shall have the ability to be recorded, viewed live, saved to
views, exported, and is available for search and playback
c. Streams shall be individually configurable for recording schedules and storage
rules
d. Multi-streaming – The VMS shall allow the setting of multiple, independent video
streams from the IP camera, when supported by camera model, each configurable
for frame rate, resolution, and quality level
1) Each stream shall be able to be recorded, viewed live, saved to views,
exported, and available for search and playback
2) All streams can be individually configurable for recording schedules and
storage rules
10. Recording
a. The Video Management System shall support continuous, uninterrupted and
unattended recording of all video transmitted to the VMS, including during times of
administration and configuration of any feature
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
12 of 67
b. The Video Management System shall support recording video based on metadata
generated by an edge network device and included in the video stream sent to the
VMS server
c. The Video Management System shall support the configuration of each video input’s recording time on an hourly basis, to further allow the user to schedule
when to record on motion, when to record on event and when to not record
d. The Video Management System shall support video recording based on access
control events and activity
e. The Video Management System shall support recording of video and data files, as
determined by rules, events, or manual selection
f. The Video Management System shall support recording video based on the
following classifications
1) Continuous Recording (all video all the time)
2) Video associated with motion events as detected by the device
3) Video associated with triggered alarms as configured with an integrated
access control solution (as supported by the manufacturer)
4) Activity from an access control system
11. Video Archiving
a. The Video Management System shall support the archiving of video and data files,
as determined by rules, events, or manual selection
b. Schedules – The Video Management System shall support continuous or
scheduled archiving
1) Archive tasks shall continue until completion of the current requirement or
terminate at a scheduled time.
2) Weekly schedules shall be supported.
12. Events
a. The Video Management System shall support events to initiate actions
1) Events
(a) Video motion, operating on the encoded video
(b) Video loss of analog video signals
(c) Device, server, and system health
(d) IP camera connection
(e) Date and time
2) Actions
(a) Record video
(b) Send an email
(c) Move a PTZ camera to a preset position
3) Users shall have the ability to create rules based on a combination of events
J. Archiving (Server)
1. The Archiver (role) shall use an event and timestamp database for advanced search of
audio/video archives. This database shall be a Microsoft SQL 2016 or higher. SQL Lite
not allowed.
2. The Archiver shall protect archived audio/video files and the system database against
network access and non-administrative user access.
3. The Archiver shall digitally sign recorded video using 248-bit RSA public/private key
cryptography.
4. The Archiver shall offer a plug and play type hardware discovery service with the
following functionalities:
a. Automatically discover Digital Video Server (DVS) units as they are attached to the
network.
b. Discover DVS units on different network segments including the Internet and
across routers with or without network address translation (NAT) capabilities.
5. The Archiver shall have the capacity to configure the key frame interval (I-frame) in
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
13 of 67
seconds or number of frames.
6. The Archiver shall provide a pre-alarm and post-alarm recording option that can be set
between one second and 5 minutes on a per camera basis.
7. Shall provide the functionality of storing of video and audio streams based on triggering
events such as:
a. Digital motion detection
b. Digital input activation
c. Macros
d. Through SDK application recording
8. The Archiver shall perform video motion detection on each individual camera based on
a grid of motion detection blocks. All of the video motion detection settings are
configurable on schedule. A global sensitivity threshold is available to reduce motion
detection sensitivity where video signal is noisy or a lot of false hits are incurred. Video
motion detection itself can be set into four different modes.
9. Time Coverage
a. All day
b. Specific time range(s)
c. Daytime or nighttime based on the times of sunrise and sunset, automatically
calculated from the time of year and a geographical location. Provision shall be
given to offset the calculated sunrise or sunset time by plus or minus 3 hours.
10. The Archiver shall allow each camera (video source) to be encoded multiple times in the
same or different video formats (MPEG-4, MPEG-2, MJPEG, H.264, Wavelet or
JPEG2000), limited only by the capabilities of each DVS.
11. Whenever multiple video streams are available from the same camera, users shall be
free to use any one of them based on their assigned usage. The standard video stream
usages are:
a. Live
b. Recording
c. Remote
d. High resolution
12. The Archiver shall allow the video quality to vary according to predefined schedules.
Such schedules shall have the same configuration flexibility as the recording schedules
mentioned earlier. The video quality shall be based on, but not limited to, the following
parameters:
a. Maximum bit rate
b. Maximum frame rate
c. Image quality
d. Key frame interval
e. etc.
13. The Archiver shall have the ability to dynamically boost the quality of the "recording
stream" (see previous bullet) based on specific events:
a. When recording is started manually by a user
b. When recording is triggered by a macro, an alarm or detected motion
14. The Archiver shall have the capacity to communicate with Digital Video Server (DVS)
using 128 bits SSL encryption.
15. The Archiver shall have the capacity to communicate with DVS using HTTPS secure
protocol.
16. The Archiver shall have the capacity to receive multicast UDP streams directly from the
DVS.
17. For network topologies that restrict the DVS from sending multicast UDP streams, the
Archiver shall redirect audio/video streams to active viewing clients on the network using
multicast UDP.
18. The Archiver shall have the capacity to redirect audio/video stream to active viewing
clients on the network using unicast UDP or TCP.
19. The Archiver shall allow the administrator to choose the disks to use for archiving and to
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
14 of 67
set a maximum quota for each.
20. The Archiver shall allow important video sequences to be protected against normal disk
cleanup routines.
21. Users shall have the following options when protecting a video sequence:
a. Until a specified date
b. For a specified number of days
c. Indefinitely (until the protection is explicitly removed)
22. The Archiver shall allow the administrator to put a cap on the percentage of storage
space occupied by protected video.
23. The Archiver shall keep a log and compile statistics on disk space usage.
24. The statistics shall be available by disk group or for the whole Archiver.
25. The statistics shall show the percentage of protected video over the total used disk
space.
26. The Archiver shall have the capacity to down-sample video streams for storage saving
purposes. The down-sampling options available are the following:
a. For H.264 streams the down-sampling options are: all key frames, 1 fps,
2 sec./frame, 5 sec./frame, 10 sec./frame, 15 sec./frame, 30 sec./frame.
60 sec./frame 120 sec./frame
b. For MPEG-4 streams the down-sampling options are: all key frames, 1 fps,
2 sec./frame, 5 sec./frame, 10 sec./frame, 15 sec./frame, 30 sec./frame.
60 sec./frame 120 sec./frame
c. For MJPEG streams the down-sampling options are: 15 fps, 10 fps, 5 fps, 2 fps,
1 fps, 2 sec./frame, 5 sec./frame, 10 sec./frame, 15 sec./frame, 30 sec./frame,
60 sec./frame 120 sec./frame
27. The Archiver shall support DVS with edge recording capabilities and offer the following
capacity:
a. The ability to playback at different speeds the video recorded on the DVS
b. The ability to offload (video trickling) on schedule, on event or manually the video
recorded on the DVS to store it on the Archiver.
c. It shall be possible to filter the video that is being offloaded using one or multiple of
the following filters:
1) Time interval
2) Playback request
3) Video analytic events
4) Motion events
5) Bookmarks
6) Alarms
7) Input pin events
8) Unit offline events
2.03 CLIENT WORKSTATIONS
A. Video Client workstations shall be located as shown on the contract documents. Site
surveillance, site camera configuration, and review of recorded images shall occur at Owner
directed locations, as permissions are granted. A total of four (4) fully-equipped Video Client
Workstations shall be provided that include standard full form factor desktop units (NO SMALL
FORM FACTOR OR HYBRID ALLOWED), 24” Dell P92219H Monitor OR EQUAL Dell Part
#P4221D OR EQUAL, Dell PowerEdge T440 with ergonomic keyboard and mouse, OR
EQUAL.
B. The System shall also support access to video streams and VMS control using any properly
configured PC computer connected to the Dennis-Yarmouth Intermediate Middle School
LAN/WAN based on permissions granted for of the user. Coordinate with the Owner, the
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
15 of 67
Architect and the Security Consultant.
C. The VMS Client Workstation(s) shall be a Dell or HP desktop computer that meets or exceeds
the current Video Management System specifications for a High-Performance Video Client PC,
with NVIDIA NVS/ATI FirePro with V4xxx add-in card for multiple monitors (1GB DDR3
DP/DVI) or better.
D. Provide Video Management System Thick Client Software.
E. Intel Core i7 Processor, or better
F. RAM: 16GB or better
G. Hard Drive: 60 GB SSD, or better
H. (2) 24” LED Monitors (must support 1920x1200 minimum)
I. Audio with speakers, Multimedia keyboard with palm rest, 6-button Laser mouse and surge
suppression strip
J. 3-year limited warranty
K. Provide Uninterruptable Power Supplies for all Workstations for a minimum of 2-hour runtime:
Provide APC Uninterruptable Power Supply Model SMJ1500RM24.
L. Server and Archivers Hardware
1. The Central Video Management System Server is located in the MDF Room as shown
on the contract documents.
2.04 VIDEO MANAGEMENT SYSTEM SERVER (HARWARE)
A. The Video Management System Server is the device for processing and recording IP based
video from IP output cameras. The Video Server shall be of sufficient size to accommodate the
cameras as shown on the contract drawings and an additional 25% capacity (refer to the
coversheet of the Contract drawings for per camera storage requirements.) The Processing
and storage shall be from a single manufacturer and piece components from different
manufacturers are not allowed. Quality Control is to be provided by a single manufacturer and
not the Security Subcontractor.
B. The Video Management Server shall be a rack-mounted server class computer, capable of
processing and recording the maximum number of camera streams required for the project, as
described herein and shown on the drawings.
1. Quad Gen 3 Intel Core i7 Processor
2. Redundant Power Supplies
3. Recording Resolution: CIF to 20 megapixels
4. Alarm Inputs: 8
5. Alarm Outputs: 1
6. Serial Connections: RS-232 port
7. Network Interface Card: Two (2) Gigabit 1000Base-T interfaces
8. USB 2.0 Ports: 8 (8xUSB 2.0)
9. Audio Inputs: 4
10. Hard Drive Storage: Hard drive storage, or equal by Dell. Hot-swappable drives.
11. VGA Output: 1 DVI-A, 1 DVI-D, 1 Display Port, 2 maximum simultaneous monitors
12. Watchdog Timer: Included, Software based
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
16 of 67
13. DVD/CD RW: Included, Front panel access
14. Operating System: Server 2008 installed on 40 GB SSD/Linux Ubuntu 10.04 (kernel 3.0)
installed on 4 GB flash drive
15. Operating Temperature: 40° – 95°F
16. Relative Humidity: 5 – 95% RH (non-condensing)
C. The Video Management Server shall be a Dell PowerEdge R740xd, HP, Lenorvo, OR EQUAL.
2.05 PoE++ SWITCHES
A. Provide Switches to be HP ProCurve OfficeConnect 1920 S Series, OR EQUAL.
1. 8-Port Gigabit POE++ OfficeConnect Switch
a. Advanced smart managed 8-port Gigabit PoE++ switch from our most popular
switch series for small businesses. This model has 8x 10/100/1000 ports. 4 of the
ports support PoE++/PoE with a Power over Ethernet budget of 65 Watts.
2. 24-Port Gigabit POE++ OfficeConnect Switch
a. Advanced smart managed 24-port Gigabit PoE++ switch from our most popular
switch series for small businesses. This model has 24x 10/100/1000 ports as well
as 2 SFP ports. 12 of the ports support PoE++/PoE with a Power over Ethernet
budget of 185 Watts.
3. 48-Port Gigabit POE++ OfficeConnect Switch
a. Advanced smart managed 48-port Gigabit PoE++ switch from our most popular
switch series for small businesses. This model has 48x 10/100/1000 ports as well
as 4 SFP ports. 24 of the ports support PoE++/PoE with a Power over Ethernet
budget of 370 Watts.
4. Simple Web management
a. Allows for easy management of the switch, even by nontechnical users, through an
intuitive Web GUI; supports HTTP and HTTP Secure (HTTPS)
5. Single IP management
a. Enables management of up to 32 HPE OfficeConnect 1920 switches using a single
Web interface; simplifies management of multiple devices
6. SNMPv1, v2c, and v3
a. Facilitate management of the switch, as the device can be discovered and
monitored from an SNMP management station
7. Complete session logging
a. Provides detailed information for problem identification and resolution
8. Port mirroring
a. Enables traffic on a port to be simultaneously sent to a network analyzer for
monitoring
9. Dual flash images
a. Provide independent primary and secondary operating system files for backup
while
10. Management security
a. Restricts access to critical configuration commands; offers multiple privilege levels
with password protection; ACLs provide TELNET and SNMP access; local and
remote syslog capabilities allow logging of all access
11. Network Time Protocol (NTP)
a. Synchronizes timekeeping among distributed time servers and clients; keeps
timekeeping consistent among all clock-dependent devices within the network so
that the devices can provide diverse applications based on the consistent time
12. Limited CLI
a. Enables users to quickly deploy and troubleshoot devices in the network
13. Default DHCP client mode
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
17 of 67
a. Allows the switch to be directly connected to a network, enabling plug-and-play
operation; in absence of a DHCP server on the network, the switch will fall back to
a unique static address determined by the switch’s MAC address
14. FTP, TFTP, and SFTP support
a. Offer different mechanisms for configuration updates; FTP allows bidirectional
transfers over a TCP/IP network; trivial FTP (TFTP) is a simpler method using
User Datagram Protocol (UDP); Secure File Transfer Protocol (SFTP) runs over an
SSH tunnel to provide additional security
15. Remote monitoring (RMON)
a. Uses standard SNMP to monitor essential network functions; supports events,
alarm, history, and statistics group plus a private alarm extension group
b. Quality of service (QoS)
16. Traffic prioritization
a. Provides time-sensitive packets (like VoIP and video) with priority over other traffic
based on DSCP or IEEE 802.1p classification; packets are mapped to eight
hardware queues for more effective throughput
17. IEEE 802.1p/Q VLAN tagging
a. Delivers data to devices based on the priority and type of traffic; supports IEEE
802.1Q
18. Advanced classifier based QoS
a. Classifies traffic using multiple match criteria based on Layer 2, 3, and 4
information; applies
b. QoS policies such as setting priority level and rate limit to selected traffic on a per-port basis • Broadcast control
c. Allows limitation of broadcast traffic rate to cut down on unwanted network
broadcast traffic
19. Rate limiting
a. Sets per-port ingress enforced maximums and per-port, per-queue minimums
20. Class of Service (CoS)
a. Sets the IEEE 802.1p priority tag based on IP address, IP Type of Service (ToS),
Layer 3 protocol, TCP/UDP port number, source port, and DiffServ
21. Powerful QoS feature
a. Supports the following congestion actions: strict priority queuing (SP), weighted
round robin (WRR) queuing, and SP+WRR
22. Connectivity
a. IPv6 host
b. Enables switches to be managed and deployed at the IPv6 network’s edge
23. IPv6 routing
a. Supports IPv6 static routes
24. MLD snooping
a. Forwards IPv6 multicast traffic to the appropriate interface, preventing traffic
flooding
25. IPv6 ACL/QoS
a. Supports ACL and QoS for IPv6 network traffic
26. IEEE 802.3X Flow Control
a. Provides a flow throttling mechanism propagated through the network to prevent
packet loss at a congested node
27. IEEE 802.3at Power over Ethernet (PoE++)
a. Provides up to 30 W per port, which allows support of the latest PoE+ capable
devices such as IP phones, wireless access points, and security cameras, as well
as any IEEE 802.3af-compliant
b. end device; mitigates the cost of additional electrical cabling and circuits that would
otherwise be necessary in IP phone and WLAN deployments
28. Cable diagnostics
a. Detects cable issues remotely using a browser-based tool
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
18 of 67
29. Flow Control
a. Provides back pressure using standard IEEE 802.3x, reducing congestion in heavy
traffic situations
30. Auto MDI/MDI-X
a. Adjusts automatically for straight-through or crossover cables on all 10/100/1000
ports
31. Security
a. Advanced access control lists (ACLs) -Enables network traffic filtering and
enhances network control using MAC- and IP-based ACLs; time-based ACLs allow
for greater flexibility with managing network access
b. IEEE 802.1X and RADIUS network logins -Controls port-based access for
authentication and accountability
c. Secure Sockets Layer (SSL) - Encrypts all HTTP traffic, allowing safe access to
the browser-based management GUI in the switch
d. Port isolation - The port isolation feature isolates Layer 2 traffic for data privacy
and security without using VLANs. (This feature can also be used to isolate the
hosts in a VLAN from one another)
e. Port security - Combines and extends IEEE 802.1X and MAC authentication to
provide MAC-based network access control
f. ARP attack protection - The ARP detection feature enables access devices to
block ARP packets from unauthorized clients to prevent user spoofing and
gateway spoofing attacks
g. Automatic VLAN assignment - Assigns users automatically to the appropriate
VLAN based on their identity, location, and time of day
h. STP BPDU port protection - Blocks Bridge Protocol Data Units (BPDUs) on ports
that do not require BPDUs, preventing forged BPDU attacks
i. STP root guard - Protects the root bridge from malicious attacks or configuration
mistakes
j. Automatic denial-of-service protection - Monitors for malicious attacks and protects
the network by blocking the attacks
k. Management password - Provides security so that only authorized access to the
Web browser interface is allowed
32. Performance
a. Half-and full-duplex auto-negotiating capability on every port doubles the
throughput of every port
b. Selectable queue configurations - Allows for increased performance by selecting
the number of queues and associated memory buffering that best meet the
requirements of the network applications
c. IGMP snooping - Improves network performance through multicast filtering,
instead of flooding traffic on all ports
d. Fiber uplink - Provides greater distance connectivity using Gigabit Ethernet fiber
uplinks
33. Layer 2 switching
a. Spanning Tree Protocol (STP) - Supports standard IEEE 802.1D STP, IEEE
802.1w Rapid Spanning Tree Protocol (RSTP) for faster convergence, and IEEE
802.1s Multiple Spanning Tree Protocol (MSTP)
b. BPDU filtering - Drops BPDU packets when STP is enabled globally but disabled
on a specific port
c. Jumbo frame support - Supports up to 10 kilobyte frame size to improve the
performance of large data transfers
d. VLAN support and tagging - Support IEEE 802.1Q with 4,094 simultaneous VLAN
IDs
34. Layer 3 services
a. Address Resolution Protocol (ARP) - Determines the MAC address of another IP
host in the same subnet; supports static ARPs; gratuitous ARP allows detection of
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
19 of 67
duplicate IP addresses; proxy ARP allows normal ARP operation between subnets
or when subnets are separated by a Layer 2 network
b. DHCP Relay - Simplifies management of DHCP addresses in networks with
multiple subnets
35. Layer 3 routing
a. Static IPv4/IPv6 routing - Provides basic routing (supporting up to 32 static routes
and 8 virtual VLAN interfaces); allows manual routing configuration
36. Resiliency and high availability
a. Available redundant power supply - Provides additional PoE++ of up to 795 W for
high-power applications like PTZ IP cameras, video IP phones; the HPE RPS1600
Redundant Power System (JG136A), which is sold separately, is for use with the
HPE OfficeConnect 1920 24G PoE++ (370W) switch and HPE OfficeConnect 1920
48G PoE++ Switch (370W) switch models.
b. Link aggregation - Groups together multiple ports up to a maximum of eight ports
per trunk either automatically using Link Aggregation Control Protocol (LACP), or
manually, to form an ultra-high-bandwidth connection to the network backbone;
help prevent traffic bottlenecks. The 8 port models support 4 trunks, 16 and 24 port
models support 8 trunks, 48 port models support 16 trunks.
37. Convergence
a. LLDP-MED (Media Endpoint Discovery) - Defines a standard extension of LLDP
that stores values for parameters such as QoS and VLAN to configure network
devices such as IP phones automatically
b. PoE++ allocations - Support multiple methods (automatic, IEEE 802.3af class,
LLDP-MED, or user-specified) to allocate PoE++ power for more efficient energy
savings
c. Auto-voice VLAN - Recognizes IP phones and automatically assigns voice traffic to
dedicated VLAN for IP phones
38. Additional information
a. Green initiative support: Provides support for RoHS and WEEE regulations
b. Green IT and power: Improve energy efficiency through the use of the latest
advances in silicon development; shuts off unused ports and utilizes variable-
speed fans, reducing energy costs
c. Energy Efficient Ethernet: Compliant with IEEE 802.3az standard requirements to
save energy during periods of low data activity
2.06 KEYBOARD/VIDEO/MOUSE(KVM)
A. Provide a rack-mounted KVM switch in the MDF main equipment rack to support setup,
configuration, and programming of the Video Management System. KVM shall include an 18.5”
Color LCD display, keyboard/mouse and slide out rack mounted tray at a minimum. Provide Belkin 18.5” rackmount console with eight (8) ports KVM wide screen switch; Belkin Model
number F1DC108V, Dell, Tripplite OR EQUAL
1. Display Type: KVM console / TFT active matrix
2. Diagonal Size: 18.5"
3. Viewable Size: 18.5"
4. Aspect Ratio: Widescreen
5. Native Resolution: 1366 x 768 at 65 Hz
6. Pixel Pitch: 300x300
7. Contrast Ratio: 1000:1
8. Color Support: 16.7 million colors
9. Response Time: 5 ms
10. Dimensions (WxDxH): 19 in x 27.5 in x 1.7 in
11. Height (Rack Units): 1U
12. Weight: 24.9 lbs
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
20 of 67
2.07 MONITORS
A. Provide one (desk mount) 27” monitor, and one 37” wall/ceiling mounted monitor at front
administration desk, and as identified on contract drawings for situational awareness viewing.
1. Wall/Ceiling Mount Bracket; Chief FHP Universal CENTRIS Small Flat Panel
Ceiling/Wall Mount with Adjustable pivot, Model number FHP-VB OR EQUAL
2. Dell Monitor Model number SE2737HR 37” Monitor OR EQUAL
2.08 5MP IP DOME CAMERAS WITH IR ILLUMINATION AND WDR
A. Cameras shall be AXIS P3227-LVE, AXIS P3228-LVE, Arecont, Panasonic OR EQUAL.
Interior/Exterior 5MP/4K Dome network camera.
B. Exterior 5MP Dome network camera:
1. The dome network camera shall meet or exceed the following design specifications:
a. The camera shall operate on an open source; Linux-based platform and including
a built-in web server.
b. The camera shall be equipped with an IR-sensitive progressive scan megapixel
sensor.
c. The camera shall provide a removable IR-cut filter, providing day/night
functionality.
d. The camera shall be equipped with a varifocal lens with P-iris.
e. The camera shall provide local video storage utilizing a
microSD/microSDHC/microSDXC memory card expansion.
f. The camera shall be manufactured with an IP66- and NEMA 4X-rated, IK10
impact-resistant casing.
g. The camera shall provide a manual 3-axis (pan/tilt/rotation) positioning to allow
adjustment for optimum camera rotation and placement.
h. The camera shall provide options for clear and smoked lower dome.
2. The dome network camera shall meet or exceed the following performance
specifications:
a. Illumination
1) 0.18 lux F1.7 (color)
2) 0.04 lux F1.7 (B/W)
3) 0 lux with IR illumination on
b. Resolution
1) The camera shall be designed to provide video streams in (3072x1728) at up to
30 frames per second (60Hz mode) or 25 frames per second (50Hz mode)
using H.264 or Motion JPEG.
2) The camera shall provide up to 8 individually cropped out view areas.
3) The camera shall support video resolutions including:
(a) 3072x1728
(b) 1920x1080 (HDTV 1080p)
(c) 1280x720 (HDTV 720p)
4) The camera shall provide both landscape format (4:3 and 16:9 aspect ratio) as
well as corridor format (3:4 and 9:16 aspect ratio).
c. Encoding
1) The camera shall support the following video encoding algorithms:
(a) Motion JPEG encoding in a selectable range from 1 up to 25/30 frames
per second in all resolutions.
(b) Baseline Profile H.264 encoding with motion estimation in up to 25/30
frames per second.
(c) Main Profile H.264 encoding with motion estimation and context-
adaptive binary arithmetic coding (CABAC) in up to 25/30 frames per
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
21 of 67
second.
(d) Support High Profile H.264 encoding with motion estimation up to 25/30
frames per second.
(e) Support H.264 with automatic scene adaptive bitrate control in up to
25/30 frames per second.
2) The camera shall provide independently configured simultaneous H.264 and
Motion JPEG streams.
3) The camera shall in H.264 | H.265 support combining Average Bit Rate (ABR)
and Maximum Bit Rate (MBR)
4) The camera shall be able to deliver predictable storage using Average Bit Rate
(ABR) bitrate controlling algorithm based on a bitrate budget and selected
retention time.
(a) The ABR bitrate algorithm, depending on the bitrate budget and the
selected retention time, shall adjust the bitrate to meet the bitrate budget
over the whole retention time.
(b) The ABR algorithm shall have a method to keep the video quality even
during busy periods by allowing the current bitrate to be significantly
above the configured average bitrate during significant parts of the
retention time.
5) The camera shall in H.264 | H.265 support flexible retention period for Average
Bit Rate (ABR) algorithm up to 1 year.
6) When using Average Bit Rate (ABR) the camera shall keep bitrate history up
to at least 30 days.
7) The camera shall in H.264 | H.265 support reuse of past Average Bit Rate
(ABR) history if a stream is disconnected and the camera reconnects with the
same basic stream parameters.
8) When using Average Bit Rate (ABR), the camera shall in H.264 | H.265
support multiple parallel streams with independent ABR-history.
9) The camera shall issue bitrate degradation events when using Average Bit
Rate (ABR) if the configuration is predicted to be:
(a) Unrealistic
(b) Not fulfilling basic quality requirements
(c) Not fulfilling the bitrate budget.
10) The camera shall provide configurable compression levels.
11) Support standard baseline profile H.264 with motion estimation.
12) Support motion estimation in H.264/MPEG-4 Part 10/AVC.
13) The camera shall for its H.264 implementation support scene adaptive bitrate
control with automatic dynamic ROI to reduce bitrate in unprioritized regions in
order to lowering bandwidth and storage requirements.
d. Transmission
1) The camera shall allow for video to be transported over:
(a) HTTP (Unicast)
(b) HTTPS (Unicast)
(c) RTP (Unicast & Multicast)
(d) RTP over RTSP (Unicast)
(e) RTP over RTSP over HTTP (Unicast)
2) The camera shall support Quality of Service (QoS) to be able to prioritize traffic.
e. Image
1) The camera shall incorporate Automatic and Manual White Balance.
2) The camera shall incorporate an electronic shutter operating in the range of
1/62500s to 2s.
3) The camera shall incorporate Wide Dynamic Range - Forensic Capture
functionality providing up to120 dB dynamic range.
4) The camera shall support manually defined values for:
(a) Color level
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
22 of 67
(b) Brightness
(c) Sharpness
(d) Contrast
5) The camera shall incorporate a function for optimization of low light behavior.
6) The camera shall allow for rotation of the image in steps of 90º.
f. Audio
1) The camera shall support two-way audio connectivity via portcast technology
with an accessory audio and I/O interface device.
g. IR Illumination
1) The camera shall be equipped with built-in IR LEDs
(a) The IR LEDs shall have a range of up to 30 m (100 ft)
(b) The IR LEDs shall emit light with a wavelength of 850 nm
h. User Interface
1) Web server
(a) The camera shall contain a built-in web server making video and
configuration available to multiple clients in a standard operating system
and browser environment using HTTP, without the need for additional
software.
(b) Optional components downloaded from the camera for specific tasks
shall be signed by an organization providing digital trust services, such
as Verisign, Inc.
2) Language Specification
(a) The camera shall provide a function for altering the language of the user
interface and shall include support for at least 10 different languages.
3) IP addresses
(a) The camera shall support both fixed IP addresses and dynamically
assigned IP addresses provided by a Dynamic Host Control Protocol
(DHCP) server.
(b) The camera shall allow for automatic detection of the camera based on
UPnP and Bonjour when using a PC with an operating system supporting
this feature.
(c) The camera shall provide support for both IPv4 and IPv6.
i. PTZ functionality
1) The camera shall:
(a) Provide Digital PTZ functionality.
(b) Provide preset position functionality
j. Event functionality
1) The camera shall be equipped with an integrated event functionality, which can
be trigged by:
(a) Video Motion Detection
(b) Live Stream Accessed
(c) Camera tampering
(d) Manual Trigger/Virtual Inputs
(e) PTZ functionality
(f) Embedded third party applications
(g) Edge storage disruption detection
2) Response to triggers shall include:
(a) Send notification, using HTTP, HTTPS, TCP, SNMP trap or email
(b) Send images, using FTP, HTTP, HTTPS, network share or email
(c) Send video clip, using FTP, HTTP, HTTPS, network share or email
(d) Send SNMP trap message
(e) Activating embedded illumination/IR LED
(f) Recording to local storage and/or network attached storage
(g) PTZ control functionality
3) The camera shall provide memory for pre & post alarm recordings.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
23 of 67
k. Edge storage
1) The camera shall support continuous and event-controlled recording to:
(a) Local memory added to the cameras SD-card slot
(b) Network attached storage, located on the local network
2) The camera shall be able to detect and notify Edge storage disruptions.
l. Protocol
1) The camera shall incorporate support for at least IPv4, IPv6 USGv6, HTTP,
HTTPS, SSL/TLS, QoS Layer 3 DiffServ, FTP, SFTP, CIFS/SMB, SMTP,
Bonjour, UPnP®, SNMP v1/v2c/v3 (MIB-II), DNS, DynDNS, NTP, RTSP, RTP,
SRTP, TCP, UDP, IGMP, RTCP, ICMP, DHCP, ARP, SIP, SOCKS, SSH,
LLDP, MQTT
2) The SMTP implementation shall include support for SMTP authentication.
m. Text overlay
1) The camera shall:
(a) Provide embedded on-screen text with support for date & time, and a
customer-specific text, camera name, of at least 45 ASCII characters.
(b) Provide the ability to apply privacy masks to the image.
(c) Allow for the overlay of a graphical image, such as a logotype, into the
image.
n. Security
1) The camera shall support the following:
(a) Secure web browsing
(1) The use of HTTPS and SSL/TLS, providing the ability to upload
signed certificates to encrypt and secure authentication and
communication of both administration data and video streams.
(2) Restrict access to the built-in web server by usernames and
passwords at three different levels.
(b) Certificate management
(1) Provide centralized certificate management, with both pre-installed
CA certificates and the ability to upload additional CA certificates.
The certificates shall be signed by an organization providing digital
trust services.
2) Enhanced security features
(a) The use of signed firmware validates the firmware’s integrity before
accepting to install it.
(b) The use of a secure boot process, based on the use of signed firmware,
ensures that the camera can boot only with authorized firmware.
3) Authentication
(a) IEEE 802.1x (EAP-TLS) authentication.
(b) Restrict access to pre-defined IP addresses, commonly known as IP
address filtering.
4) Brute force delay protection
o. API support
1) The camera shall be fully supported by an open and published API (Application
Programmers Interface), which shall provide necessary information for
integration of functionality into third party applications.
2) The camera shall conform to ONVIF profile G as defined by the ONVIF
Organization.
3) The camera shall conform to ONVIF profile S as defined by the ONVIF
Organization.
4) The camera shall conform to ONVIF profile T as defined by the ONVIF
Organization.
5) Support for Session Initiation Protocol (SIP) for integration with Voice over IP
(VoIP) systems, peer to peer or integrated with SIP/PBX.
p. Embedded applications
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
24 of 67
1) The camera shall provide a platform allowing the upload of third party
applications into the camera.
q. Installation and maintenance
1) The camera shall be supplied with Windows-based management software
which allows the assignment of IP addresses, upgrade of firmware and backup of the cameras’ configuration.
2) The camera shall support the use of SNMP-based management tools
according to SNMP v1, 2c & 3 / MIB-II.
3) The camera shall allow updates of the software (firmware) over the network,
using FTP or HTTP.
4) The camera shall provide the ability to apply a rectangle of customer-defined
number of pixels to the image, which can be used as a pixel counter identifying
the size of objects in number of pixels.
5) The camera shall accept external time synchronization from an NTP (Network
Time Protocol) server.
6) The camera shall store all customer-specific settings in a non-volatile memory
that shall not be lost during power cuts or soft reset.
7) The camera shall provide Remote zoom and Remote focus functionality.
r. Access log
1) The camera shall provide a log file, containing information about the 250 latest
connections and access attempts since the unit’s latest restart. The file shall
include information about the connecting IP addresses and the time of
connecting.
2) Provide a connection list of all currently connected viewers. The file shall
include information about connecting IP address, time of connecting and the
type of stream accessed.
s. Camera diagnostics
1) The camera shall be equipped with LEDs, capable of providing visible status
information. LEDs shall indicate the camera’s operational status and provide
information about power, communication with receiver, the network status and
the camera status.
2) The camera shall be monitored by a Watchdog functionality, which shall
automatically re-initiate processes or restart the unit if a malfunction is
detected.
3) The camera shall send a notification when the unit has re-booted and all
services are initialized.
t. Hardware interfaces
1) Network interface
(a) The camera shall be equipped with one 10BASE-T/100BASE-TX PoE
Fast Ethernet-port, using a standard RJ45 connector and shall support
auto negotiation of network speed (100 MBit/s and 10 MBit/s) and
transfer mode (full and half duplex).
2) Inputs/Outputs
(a) The camera shall provide I/O connectivity via portcast technology with an
accessory audio and I/O interface device.
u. Enclosure
1) The camera shall:
(a) Be manufactured with an IP66- and NEMA 4X-rated, IK10 impact-
resistant casing.
(b) Be fitted with a dehumidifying membrane.
(c) Provide encapsulated electronics and captive screws.
v. Power
1) Power over Ethernet IEEE 802.3af/802.3at Type 1 Class 3
(a) Max: 11.5 W
(b) Typical: 8.4 W
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
25 of 67
w. Environmental
1) The camera shall:
(a) Operate in a temperature range of -40 °C to 50 °C (-40 °F to 122 °F)
(b) Operate in a humidity range of 10–100% RH (condensing)
(c) Be stored in a humidity range of 5-95% RH (non-condensing)
2.09 180-DEGREE CAMERA (as noted in Exterior Camera Schedule, as noted in Gym Wall Mount,
as noted in Stairwells, as noted in Courtyards, and as noted in Apexes and Entrances)
A. Fixed dome multi-sensor panoramic network camera shall be Axis P3807-LVE, Arecont,
Panasonic OR EQUAL.
B. The fixed dome multi-sensor network camera shall meet or exceed the following design
specifications:
1. The camera shall operate on an open source; Linux-based platform, and including a
built-in web server.
2. The camera shall be equipped with an IR-sensitive progressive scan megapixel sensor.
3. The camera shall provide an automatically removable IR-cut filter, providing day/night
functionality.
4. The camera shall be manufactured with an IP66/IP67 and NEMA 4X-rated, IK10 impact-
resistant aluminum casing fitted with a repaint able weather shield.
5. The camera shall be equipped with 3,2 mm fixed lenses providing a
a. Horizontal field of view: 180 Degree
b. Vertical field of view: 90-Degree
6. The camera shall provide a manual 3-axis (pan/tilt/rotation) positioning to allow
adjustment for optimum camera rotation and placement.
7. The camera shall provide a 180-degree panoramic overview provided by four sensors.
C. The fixed dome multi-sensor network camera shall meet or exceed the following performance
specifications:
1. Illumination
a. 0.17 lux in color
b. 0.05 lux B/W
2. Resolution
a. 8.3 MP: up to 25/30 fps with power line frequency 50/60 Hz
b. 7.5 MP (de-warped): up to 12.5/15 fps with power line frequency 50/60 Hz
c. The individual cameras shall support video resolutions including:
1) 1920x1080 (HDTV 1080p)
2) 1280x720 (HDTV 720p)
3. Encoding
a. The camera shall support the following video encoding algorithms:
1) Motion JPEG encoding in a selectable range from 1 up to 25/30 frames per
second in all resolutions.
2) Baseline Profile H.264 encoding with motion estimation in up to 25/30 frames
per second.
3) Main Profile H.264 encoding with motion estimation and context-adaptive
binary arithmetic coding (CABAC) in up to 25/30 frames per second.
4) Support High Profile H.264 encoding with motion estimation up to 50/60 frames
per second.
b. The camera shall provide two independently configured simultaneous H.264 and
Motion JPEG streams.
c. The camera shall in H.264 support Variable Bit Rate (VBR) for video quality
adapted to scene content. To protect the network from unexpected bit rate speaks
the camera shall support Constant Bit Rate (CBR) or Maximum Bit Rate (MBR).
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
26 of 67
d. The camera shall provide configurable compression levels.
e. The camera shall support motion estimation in H.264/MPEG-4 Part 10/AVC.
4. Transmission
a. The camera shall allow for video to be transported over:
1) HTTP (Unicast)
2) HTTPS (Unicast)
3) RTP (Unicast & Multicast)
4) RTP over RTSP (Unicast)
5) RTP over RTSP over HTTP (Unicast)
b. The camera shall support Quality of Service (QoS) to be able to prioritize traffic.
5. Image
a. The camera shall incorporate automatic and manual white balance.
b. The camera shall incorporate an electronic shutter operating in the range of
1/33500s to 1/10 s.
c. The camera shall incorporate forensic wide dynamic range functionality, providing
up to 120 dB dynamic range.
d. The camera shall support manually defined values for:
1) Saturation
2) Contrast
3) Sharpness
4) Brightness
e. The camera shall incorporate a function for optimization of low light behavior.
6. IP addresses
a. The camera shall support both fixed IP addresses and dynamically assigned IP
addresses provided by a Dynamic Host Control Protocol (DHCP) server.
b. The camera shall allow for automatic detection of the camera based on UPnP and
Bonjour when using a PC with an operating system supporting this feature.
c. The camera shall provide support for IPv6.
7. Event functionality
a. The camera shall be equipped with an integrated event functionality, which can be
triggered by:
1) Video motion detection
2) Live stream accessed
3) Camera tampering
4) Manual trigger/ virtual inputs
5) PTZ functionality
6) Embedded third party applications
7) Edge storage disruption detection
b. Response to triggers shall include:
1) Send notification, using HTTP, HTTPS, TCP, SNMP trap or email
2) Send images, using FTP, HTTP, HTTPS, network share or email
3) Send video clip, using FTP, HTTP, HTTPS, network share or email
4) Send SNMP trap message
5) Activating embedded illumination/IR LED
6) Recording to local storage and/or network attached storage
7) PTZ control functionality
c. The camera shall provide memory for pre & post alarm recordings.
8. Edge storage
a. The camera shall support continuous and event-controlled recording to:
1) Local memory added to the cameras microSD-card slot
2) Network attached storage, located on the local network.
b. The camera shall incorporate encryption functionality for the SD card.
c. The camera shall be able to detect and notify edge storage disruptions.
9. Protocol
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
27 of 67
a. The camera shall incorporate support for at least IPv6, HTTP, HTTPS, SSL/TLS,
QoS Layer 3 DiffServ, FTP, SFTP, CIFS/SMB, SMTP, Bonjour, UPnP, SNMP
v1/v2c/v3 (MIB-II), DNS, DynDNS, NTP, RTSP, RTP, TCP, UDP, IGMP, RTCP,
ICMP, DHCP, ARP, SOCKS, SSH, LLDP
b. The SMTP implementation shall include support for SMTP authentication.
10. Text overlay
a. The camera shall:
1) Provide embedded on-screen text with support for date & time, and a customer-
specific text, camera name, of at least 45 ASCII characters.
2) Provide the possibility to choose different font sizes for embedded on-screen
text, and to use white or black text on at least four different backgrounds.
3) Provide the ability to manually set up and configure privacy masks to the
image.
4) Allow for the overlay of a graphical image, such as a logotype, into the image.
11. Security
a. The camera shall support the use of HTTPS and SSL/TLS, providing the ability to
upload signed certificates to encrypt and secure authentication and communication
of both administration data and video streams.
b. The camera shall provide centralized certificate management, with both pre-
installed CA certificates and the ability to upload additional CA certificates. The
certificates shall be signed by an organization providing digital trust services.
c. The camera shall support IEEE 802.1X authentication.
d. The camera shall provide support for restricting access to pre-defined IP
addresses only, so-called IP address filtering.
e. The camera shall restrict access to the built-in web server by usernames and
passwords at three different levels.
12. API support
a. The camera shall be fully supported by an open and published API (Application
Programmers Interface), which shall provide necessary information for integration
of functionality into third party applications.
b. The camera shall conform to ONVIF profile G as defined by the ONVIF
Organization.
c. The camera shall conform to ONVIF profile S as defined by the ONVIF
Organization.
13. Embedded applications
a. The camera shall provide a platform allowing the upload of third-party applications
into the camera.
14. Installation and maintenance
a. The camera shall be supplied with Windows-based management software which
allows the assignment of IP addresses, upgrade of firmware and backup of the
cameras’ configuration.
b. The camera shall support the use of SNMP-based management tools according to
SNMP v1, 2c & 3 / MIB-II.
c. The camera shall allow updates of the software (firmware) over the network, using
FTP or HTTP.
d. The camera shall provide the ability to apply a rectangle of customer-defined
number of pixels to the image, which can be used as a pixel counter identifying the
size of objects in number of pixels.
e. The camera shall accept external time synchronization from an NTP (Network
Time Protocol) server.
f. The camera shall store all customer-specific settings in a non-volatile memory that
shall not be lost during power cuts or soft reset.
15. Access log
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
28 of 67
a. The camera shall provide a log file, containing information about the 250 latest connections and access attempts since the unit’s latest restart. The file shall
include information about the connecting IP addresses and the time of connecting.
b. Provide a connection list of all currently connected viewers. The file shall include
information about connecting IP address, time of connecting and the type of
stream accessed.
16. Camera diagnostics
a. The camera shall be equipped with LEDs, capable of providing visible status
information. LEDs shall indicate the camera’s operational status and provide
information about power, communication with receiver, the network status and the
camera status.
b. The camera shall be monitored by a Watchdog functionality, which shall
automatically re-initiate processes or restart the unit if a malfunction is detected.
c. The camera shall send a notification when the unit has re-booted and all services
are initialized.
17. Network interface
a. The camera shall be equipped with one 10BASE-T/100BASE-TX/1000BASE-T
Ethernet-port using a RJ45 connector, and shall support auto negotiation of
network speed and transfer mode (full and half duplex).
18. Enclosure
a. The camera shall:
1) Be manufactured with an IP66-/IP67- and NEMA 4X-rated, IK10-rated impact-
resistant casing with polycarbonate hard coated clear dome.
2) Be fitted with a dehumidifying membrane.
19. Power
a. Power over Ethernet Plus (PoE+) IEEE 802.3at Type 1 Class 3
1) Max: 12.9 W
2) Typical: 7 W
20. Environmental
a. The camera shall:
1) Operate in a temperature range of -30 °C to 50 °C (-22 °F to 122 °F).
2) Operate in a maximum temperature (intermittent) of 60 °C (140 °F)
3) Operate in a humidity range of 10 -100% RH (condensing).
2.10 PANORAMIC DUAL 2MPx2MP IP DOME NETWORK CAMERA (use in stairwell landing
locations without glass walls)
A. Panoramic 2MPx2MP dome network camera shall be AXIS P3715–PLVE OR EQUAL
B. The specified product shall meet or exceed the following design specifications:
1. The camera shall operate on an open source and Linux-based platform, and include a
built-in web server.
2. The camera shall be equipped with an IR-sensitive progressive scan megapixel sensor.
3. The camera shall provide an automatically removable IR-cut filter, providing day/night
functionality.
4. The camera shall be equipped with a varifocal 3 – 6 mm lens with fixed iris and remote
zoom and focus.
5. The camera shall be equipped with a motorized optical zoom and focus lens, providing a
horizontal field of view between 95º and 48º, a vertical field of view between 52º and 26º
and a diagonal field of view between 110º and 52º.
6. The camera shall be manufactured with a repaintable metal (aluminum) casing.
7. The camera shall provide local video storage utilizing a
microSD/microSDHC/microSDXC memory card expansion.
8. The camera shall be manufactured with an IP66-, IP67-, NEMA 4X-rated, IK10 impact-
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
29 of 67
resistant, aluminium and plastic casing with polycarbonate hard-coated dome and
sunshield.
9. The camera shall provide a manual 3-axis (pan/tilt/rotation) positioning to allow
adjustment for optimum camera rotation and placement.
10. The camera shall provide options for clear and smoked lower dome
C. The specified product shall meet or exceed the following performance specifications:
1. Illumination: The camera shall meet or exceed the following illumination specifications:
a. Color: 0.17 lux at 50 IRE, F1.8
b. B/W: 0.04 lux at 50 IRE, F1.8
c. 0 lux with IR illumination on
2. Resolution
a. The camera shall be designed to provide video streams in 2 x HDTV 1080p
(1920x1080) at up to 30 frames per second (60Hz mode) or 25 frames per second
(50Hz mode) using H.264.
b. The camera shall support video resolutions including:
1) 1920x1080 (HDTV 1080p)
2) 1280x720 (HDTV 720p)
c. The camera shall provide both landscape format (4:3 and 16:9 aspect ratio) as well
as corridor format (3:4 and 9:16 aspect ratio).
3. Encoding
a. The camera shall provide independently configured simultaneous H.264 and
Motion JPEG streams.
b. The camera shall provide configurable compression levels.
c. The camera shall support standard baseline profile with motion estimation.
d. The camera shall support motion estimation in H.264/MPEG-4 Part 10/AVC.
e. The camera shall support the following video encoding algorithms:
1) Motion JPEG encoding in a selectable range from 1 up to 25/30 frames per
second.
2) Baseline Profile H.264 encoding with motion estimation in up to 25/30 frames
per second.
3) Main Profile H.264 encoding with motion estimation and context-adaptive
binary arithmetic coding (CABAC) in up to 25/30 frames per second.
4) High Profile H.264 encoding with motion estimation up to 25/30 frames per
second.
f. The camera shall in H.264 support Variable Bit Rate (VBR) as well as combining
Average Bit Rate (ABR) and Maximum Bit Rate (MBR)
g. The camera shall be able to deliver predictable storage using Average Bit Rate
(ABR) bitrate controlling algorithm based on a bitrate budget and selected
retention time.
1) The camera shall be able to deliver predictable storage using Average Bit Rate
(ABR) bitrate controlling algorithm based on a bitrate budget and the selected
retention time.
(a) The ABR bitrate algorithm, depending on the bitrate budget and the
selected retention time, shall adjust the bitrate to meet the bitrate budget
over the whole retention time.
(b) The ABR algorithm shall have a method to keep the video quality even
during busy periods by allowing the current bitrate to be significantly
above the configured average bitrate during significant parts of the
retention time.
2) The camera shall in H.264 support flexible retention period for Average Bit Rate
(ABR) algorithm up to 1 year.
3) When using Average Bit Rate (ABR) the camera shall keep bitrate history up to
at least 30 days.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
30 of 67
4) The camera shall in H.264 support reuse of past Average Bit Rate (ABR)
history if a stream is disconnected and the camera reconnects with the same
basic stream parameters.
5) When using Average Bit Rate (ABR), the camera shall in H.264 support
multiple parallel stream with independent ABR-history.
6) The camera shall issue bitrate degradation events when using Average Bit
Rate (ABR) if the configuration is predicted to be
(a) unrealistic
(b) not fulfilling basic quality requirements
(c) not fulfilling the bitrate budget.
h. The camera shall support scene adaptive bitrate control with one of the following
capabilities to lower bandwidth and storage:
1) Automatic dynamic Region of Interest to reduce bitrate in unprioritized regions
in order to lowering bandwidth and storage requirements.
2) Automatic dynamic Group of Pictures to lower bandwidth and storage
requirements
3) Automatic dynamic Frames per Second to lower bandwidth and storage
requirements
4. Transmission
a. The camera shall allow for video to be transported over:
1) HTTP (Unicast)
2) HTTPS (Unicast)
3) RTP (Unicast & Multicast)
4) RTP over RTSP (Unicast)
5) RTP over RTSP over HTTP (Unicast)
6) SRTP (Unicast & Multicast)
b. The camera shall support Quality of Service (QoS) to be able to prioritize traffic.
5. Image
a. The camera shall incorporate automatic and manual white balance.
b. The camera shall incorporate an electronic shutter operating in the range of
1/32500s to 2s.
c. The camera shall incorporate capture mode with the following settings:
1) 2 x HDTV 1080p (1920x1080) with WDR: 25/30 fps (50/60 Hz)
d. The camera shall incorporate wide dynamic range functionality.
e. The camera shall support manually defined values for:
1) Saturation
2) Brightness
3) Sharpness
4) Contrast
f. The camera shall incorporate a function for optimization of low light behavior at
different light levels.
g. The camera shall allow for rotation of the image in steps of 90º.
6. Audio
a. The camera shall support two-way audio connectivity via portcast technology with
an accessory audio and I/O interface device.
7. IR Illumination
a. The camera shall be equipped with built-in individually controllable IR LEDs, with a
range of up to15 m (50 ft) and with a wavelength of 850 nm.
8. User Interface
a. Web server
1) The camera shall contain a built-in web server making video and configuration
available to multiple clients in a standard operating system and browser
environment using HTTP, without the need for additional software.
2) Optional components downloaded from the camera for specific tasks shall be
signed by an organization providing digital trust services.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
31 of 67
b. Language Specification
1) The camera shall provide a function for altering the language of the user
interface, and shall include support for at least 10 different languages.
c. IP addresses
1) The camera shall support both fixed IP addresses and dynamically assigned IP
addresses provided by a Dynamic Host Control Protocol (DHCP) server.
2) The camera shall allow for automatic detection of the camera based on UPnP
and Bonjour when using a computer with an operating system supporting this
feature.
3) The camera shall provide support for both IPv4 and IPv6.
4) The camera shall provide support for IPv6 USGv6.
9. Event functionality
a. The camera shall be equipped with an integrated event functionality:
1) Device status
(a) Above operating temperature
(b) Above or below operating temperature
(c) Below operating temperature
(d) Casing open
(e) IP address
(f) Network lost
(g) Storage failure
(h) System ready
(i) Within operating temperature
2) Edge storage
(a) Recording ongoing
(b) Storage disruption
3) I/O
(a) Manual trigger
(b) Virtual inputs
4) Scheduled and recurring
5) Video
(a) Average bitrate degradation
(b) Day-night mode
(c) Live stream open
(d) Tampering
b. Response to triggers shall include event actions:
1) Record video: SD card and network share
2) Upload of images and video clips: FTP, SFTP, HTTP, HTTPS, email or network
share
3) Send notification: email, HTTP, HTTPS, TCP and SNMP trap
4) Pre- and post-alarm video or image buffering for recording or upload
5) PTZ: PTZ preset, start/stop guard tour
6) Overlay text
7) External output activation
8) Play audio clip
9) Zoom preset
10) Day and night mode
11) Status LED
c. The camera shall provide memory for pre- and post-alarm recordings.
10. Storage
a. The camera shall support continuous and event controlled recording to:
1) Local memory added to the cameras microSD-card slot
2) Network attached storage, located on the local network
b. The camera shall incorporate encryption functionality for the SD card.
c. The camera shall be able to detect and notify edge storage disruptions.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
32 of 67
11. Protocol
a. The camera shall incorporate support for at least IPv4, IPv6 USGv6, HTTP,
HTTP/2, HTTPS, SSL/TLS, QoS Layer 3 DiffServ, FTP, SFTP, CIFS/SMB, SMTP,
Bonjour, UPnP, SNMP v1/v2c/v3 (MIB-II), DNS, DynDNS, NTP, RTSP, RTP,
SRTP, TCP, UDP, IGMP, RTCP, ICMP, DHCPv4/v6, ARP, SOCKS, SSH, LLDP,
MQTT, Syslog.
b. The SMTP implementation shall include support for SMTP authentication.
12. Text overlay
a. The camera shall:
1) Provide embedded on-screen text with support for date & time, and a customer-
specific text, camera name, of at least 45 ASCII characters.
2) Provide the possibility to choose different font sizes for embedded on-screen
text, and to use white or black text on at least four different backgrounds.
3) Provide the ability to manually set up and configure privacy masks to the
image.
4) Allow for the overlay of a graphical image, such as a logotype, into the image.
13. Security
a. The camera shall support the following:
1) Secure web browsing
(a) The use of HTTPS and SSL/TLS, providing the ability to upload signed
certificates to encrypt and secure authentication and communication of
both administration data and video streams.
(b) Restrict access to the built-in web server by usernames and passwords
at three different levels.
2) Certificate management
(a) Provide centralized certificate management, with both pre-installed CA
certificates and the ability to upload additional CA certificates. The
certificates shall be signed by an organization providing digital trust
services.
3) Enhanced security features
(a) The use of signed firmware validates the firmware’s integrity before
accepting to install it.
(b) The use of trusted platform module (TPM) provides a set of cryptographic
features suitable for protecting private keys from unauthorized access.
(c) TPM is certified according to FIPS 140-2 level 2.
4) Authentication
(a) IEEE 802.1x (EAP-TLS) authentication.
(b) Restrict access to pre-defined IP addresses, commonly known as IP
address filtering.
5) Brute force delay protection
b. Firmware support
1) The manufacturer must provide firmware with long-term support that only
contains corrections for critical bugs, security flaws and performance issues.
2) The device should maintain high-level cybersecurity without introducing any
significant functional changes or affecting any existing integrations.
14. System integration
a. The camera shall be fully supported by an open and published API (Application
Programmers Interface), which shall provide necessary information for integration
of functionality into third-party applications.
b. The camera shall conform to ONVIF profile G as defined by the ONVIF
Organization.
c. The camera shall conform to ONVIF profile S as defined by the ONVIF
Organization.
15. Analytics
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
33 of 67
a. The camera shall provide a platform allowing the upload of third-party applications
into the camera.
16. Installation and maintenance
a. The camera shall be supplied with Windows-based management software which
allows the assignment of IP addresses, upgrade of firmware and backup of the cameras’ configuration.
b. The camera shall support the use of SNMP-based management tools according to
SNMP v1, 2c & 3 / MIB-II.
c. The camera shall allow updates of the software (firmware) over the network, using
FTP or HTTP.
d. The camera shall provide the ability to apply a rectangle of customer-defined
number of pixels to the image, which can be used as a pixel counter identifying the
size of objects in number of pixels.
e. The camera shall accept external time synchronization from an NTP (Network
Time Protocol) server.
f. The camera shall provide remote zoom and remote focus functionality.
17. Access log
a. The camera shall provide a log file, containing information about the 250 latest
connections and access attempts since the unit’s latest restart. The file shall
include information about the connecting IP addresses and the time of connecting.
b. The camera shall provide a connection list of all currently connected viewers. The
file shall include information about connecting IP address, time of connecting and
the type of stream accessed.
18. Camera diagnostics
a. The camera shall be equipped with LEDs, capable of providing visible status information. LEDs shall indicate the camera’s operational status and provide
information about power, communication with receiver, the network status and the
camera status.
b. The camera shall be monitored by a Watchdog functionality, which shall
automatically re-initiate processes or restart the unit if a malfunction is detected.
c. The camera shall send a notification when the unit has rebooted and all services
are initialized.
19. Hardware interfaces
a. Network interface
1) The camera shall be equipped with one 10BASE-T/100BASE-TX Ethernet-port
using a RJ45 connector and shall support auto negotiation of network speed
(100 MBit/s and 10 MBit/s) and transfer mode (full and half duplex).
b. Inputs/Outputs
1) The camera shall provide I/O connectivity via portcast technology with an
accessory audio and I/O interface device.
2) The camera shall be equipped with one digital (alarm) input and one digital
output, accessible via a removable terminal block. This input shall be
configurable to respond to normally open (NO) or normally closed (NC) dry
contacts. The output shall be able to provide 12 V DC, 15 mA.
c. Audio
1) The camera shall provide audio connectivity via portcast technology with an
accessory audio and I/O interface device.
20. Enclosure
a. The camera shall:
1) Be manufactured with an IP66-, IP67-, NEMA 4X-rated, IK10 impact-resistant,
aluminium and plastic casing with a polycarbonate hard-coated dome.
21. Power
a. The camera shall provide power over Ethernet IEEE 802.3af/802.3at Type 1 Class
3
1) Max: 12.95 W
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
34 of 67
2) Typical: 7.06 W
22. Environmental
a. The camera shall:
1) Operate in a temperature range of –30 ºC to 50 ºC (22 ºF to 122 ºF)
2) Operate in a maximum temperature (intermittent) of 74 ºC (165 ºF)
3) Operate in a humidity range of 10–100% RH (non-condensing).
2.11 EXTERIOR PTZ CAMERA (as noted in Exterior Camera Schedule)
A. The 1080p PTZ network camera shall be AXIS Q6075-E, OR EQUAL.
B. The specified product shall meet or exceed the following design specifications:
1. The product shall operate on an open source and Linux-based platform, and include a
built-in web server.
2. The product shall be equipped with an IR-sensitive progressive scan megapixel sensor.
3. The product shall provide a removable IR-cut filter, providing day/night functionality.
4. The product shall be equipped with a 4.25-170 mm lens with auto-iris and autofocus.
5. The product shall be equipped with a motorized 40x optical zoom lens, providing a
horizontal field of view between 65.1 and 2.00 and a vertical field of view between
39.1 and 1.18.
6. The product shall be manufactured with a metal (aluminum) casing.
7. The product shall provide local video storage utilizing a SD/SDHC/SDXC memory card
expansion.
8. The product shall be manufactured with an UV-resistant IP66/67, NEMA 250 4X- and
IK10-rated polymer enclosure fitted with a fixed sunshield.
9. The product shall provide options for clear and smoked dome
C. The specified product shall meet or exceed the following performance specifications:
1. Illumination
a. The product shall meet or exceed the following illumination specifications:
1) Color:
a) 0.1 lux at 30 IRE, F1.6
b) 0.15 lux at 50 IRE, F1.6
2) B/W:
a) 0.002 lux at 30 IRE, F1.6
b) 0.003 lux at 50 IRE,F1.6
2. Resolution
a. The product shall be designed to provide video streams in HDTV 1080p
(1920x1080) at up to 60 frames per second (60Hz mode) or 50 frames per second
(50Hz mode) using H.264, H.265 or Motion JPEG.
b. The product shall support video resolutions including:
1) 1920x1080 (HDTV 1080p)
2) 1280x720 (HDTV 720p)
3. Encoding
a. The product shall provide independently configured simultaneous H.264 and
Motion JPEG streams.
b. The product shall provide configurable compression levels.
c. The product shall support standard baseline profile with motion estimation.
d. The product shall support motion estimation in H.264/MPEG-4 Part 10/AVC.
e. The product shall support the following video encoding algorithms:
1) Motion JPEG encoding in a selectable range from 1 up to 50/60 frames per
second.
2) Baseline Profile H.264 encoding with motion estimation in up to 50/60 frames
per second.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
35 of 67
3) Main Profile H.265 encoding with motion estimation and context-adaptive
binary arithmetic coding (CABAC) in up to 50/60 frames per second.
4) High Profile H.264 encoding with motion estimation up to 50/60 frames per
second.
f. The camera shall in H.264 and H.265 support combining Average Bit Rate (ABR)
and Maximum Bit Rate (MBR)
g. The camera shall be able to deliver predictable storage using Average Bit Rate
(ABR) bitrate controlling algorithm based on a bitrate budget and selected
retention time.
1) The camera shall be able to deliver predictable storage using Average Bit Rate
(ABR) bitrate controlling algorithm based on a bitrate budget and the selected
retention time.
a) The ABR bitrate algorithm, depending on the bitrate budget and the
selected retention time, shall adjust the bitrate to meet the bitrate budget
over the whole retention time.
b) The ABR algorithm shall have a method to keep the video quality even
during busy periods by allowing the current bitrate to be significantly
above the configured average bitrate during significant parts of the
retention time.
2) The camera shall in H.264 and H.265 support flexible retention period for
Average Bit Rate (ABR) algorithm up to 1 year.
3) When using Average Bit Rate (ABR) the camera shall keep bitrate history up to
at least 30 days.
4) The camera shall in H.264 and H.265 support reuse of past Average Bit Rate
(ABR) history if a stream is disconnected and the camera reconnects with the
same basic stream parameters.
5) When using Average Bit Rate (ABR), the camera shall in H.264 and H.265
support multiple parallel stream with independent ABR-history.
6) The camera shall issue bitrate degradation events when using Average Bit
Rate (ABR) if the configuration is predicted to be
a) unrealistic
b) not fulfilling basic quality requirements
c) not fulfilling the bitrate budget
h. The product shall support scene adaptive bitrate control with one of the following
capabilities to lower bandwidth and storage:
1) Automatic dynamic Region of Interest to reduce bitrate in unprioritized regions
in order to lowering bandwidth and storage requirements.
2) Automatic dynamic Group of Pictures to lower bandwidth and storage
requirements
3) Automatic dynamic Frames per Second to lower bandwidth and storage
requirements
4. Transmission
a. The product shall allow for video to be transported over:
1) HTTP (Unicast)
2) HTTPS (Unicast)
3) RTP (Unicast & Multicast)
4) RTP over RTSP (Unicast)
5) RTP over RTSP over HTTP (Unicast)
6) SRTP (Unicast & Multicast)
b. The product shall support Quality of Service (QoS) to be able to prioritize traffic.
5. Image
a. The product shall incorporate automatic and manual white balance.
b. The product shall incorporate an electronic shutter operating in the range of
1/11000 s to 1/3 s.
c. The product shall incorporate capture mode with the following settings:
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
36 of 67
1) HDTV 1080p (1920x1080) with WDR: 25/30 fps (50/60 Hz)
2) HDTV 1080p (1920x1080) without WDR: Up to 50/60 fps (50/60 Hz)
d. The product shall incorporate forensic wide dynamic range functionality providing
up to 120 dB dynamic range.
e. The product shall provide backlight compensation functionality.
f. The product shall support manually defined values for:
1) Saturation
2) Brightness
3) Sharpness
4) Contrast
g. The product shall incorporate a function for optimization of low light behavior.
h. The product shall allow for rotation of the image in steps of 180º.
i. The product shall incorporate automatic defog functionality.
6. User Interface
a. Web server
1) The product shall contain a built-in web server making video and configuration
available to multiple clients in a standard operating system and browser
environment using HTTP, without the need for additional software.
2) Optional components downloaded from the product for specific tasks shall be
signed by an organization providing digital trust services.
b. Language Specification
1) The product shall provide a function for altering the language of the user
interface, and shall include support for at least 10 different languages.
c. IP addresses
1) The product shall support both fixed IP addresses and dynamically assigned IP
addresses provided by a Dynamic Host Control Protocol (DHCP) server.
2) The product shall allow for automatic detection of the product based on UPnP
and Bonjour when using a computer with an operating system supporting this
feature.
3) The product shall provide support for both IPv4 and IPv6.
7. PTZ functionality
a. The product shall:
1) Provide digital PTZ functionality.
2) Provide more than 255 manually set preset positions.
3) Provide On-screen directional indicator (OSDI) functionality.
4) Be equipped with accurate pan and tilt functionality with a range of:
a) Pan: 360 endless
b) Tilt: 220
5) Provide pan and tilt speed in a range of:
a) Pan: 0.05 - 450/sec
b) Tilt: 0.05 - 450/sec
6) Provide optical and digital zoom functionality:
a) Optical zoom: 40x
b) Digital zoom: 12x
7) Provide adjustable zoom speed.
8) Provide e-flip functionality, which will automatically rotate the image 180
electronically when following a moving object passing under the camera.
9) Provide a guard tour functionality which allows the dome to automatically move
between selected presets using an individual speed and viewing time for each
preset.
8. Event functionality
a. The product shall be equipped with an integrated event functionality:
1) Device status
a) Operating temperature
b) Fan
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
37 of 67
c) IP address
d) Network lost
e) Shock detection
f) Storage failure
g) System ready
2) Edge storage
a) Recording ongoing
b) Storage disruption
3) I/O
a) Manual trigger
b) Virtual inputs
4) PTZ
a) Malfunctioning
b) Movement
c) Preset position reached
d) Ready
5) Scheduled and recurring
6) Video
a) Average bitrate degradation
b) Live stream open
b. Response to triggers shall include event actions:
1) Day and night mode
2) Guard tours
3) Upload of images and video clips: FTP, SFTP, HTTP, HTTPS, email or network
share
4) Send notification: email, HTTP, HTTPS, TCP and SNMP trap
5) Overlay text
6) Preset positions
7) Record video: SD card and network share
8) Send SNMP trap message
c. The product shall provide memory for pre- and post-alarm recordings.
9. Edge storage
a. The product shall support continuous and event controlled recording to:
1) Local memory added to the products SD-card slot
2) Network attached storage, located on the local network
b. The product shall incorporate encryption functionality for the SD card.
c. The product shall be able to detect and notify edge storage disruptions.
10. Protocol
a. The product shall incorporate support for at least IPv4, IPv6 USGv6, HTTP,
HTTPS, SSL/TLS, QoS Layer 3 DiffServ, FTP, SFTP, CIFS/SMB, SMTP, Bonjour,
UPnP, SNMP v1/v2c/v3 (MIB-II), DNS, DynDNS, NTP, RTSP, RTP, SRTP, TCP,
UDP, IGMP, RTCP, ICMP, DHCP, ARP, SOCKS, SSH, NTCIP and LLDP.
b. The SMTP implementation shall include support for SMTP authentication.
11. Text overlay
a. The product shall:
1) Provide embedded on-screen text with support for date & time, and a customer-
specific text, product name, of at least 45 ASCII characters.
2) Provide the possibility to choose different font sizes for embedded on-screen
text, and to use white or black text on at least four different backgrounds.
3) Provide the ability to manually set up and configure polygon privacy masks to
the image.
4) Allow for the overlay of a graphical image, such as a logotype, into the image.
12. Security
a. The product shall support the following:
1) Secure web browsing
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
38 of 67
a) The use of HTTPS and SSL/TLS, providing the ability to upload signed
certificates to encrypt and secure authentication and communication of
both administration data and video streams.
b) Restrict access to the built-in web server by usernames and passwords
at three different levels.
2) Certificate management
a) Provide centralized certificate management, with both pre-installed CA
certificates and the ability to upload additional CA certificates. The
certificates shall be signed by an organization providing digital trust
services.
3) Enhanced security features
a) The use of signed firmware validates the firmware’s integrity before
accepting to install it.
b) The use of a secure boot process, based on the use of signed firmware,
ensures that the product can boot only with authorized firmware.
c) The use of trusted platform module (TPM) provides a set of
cryptographic features suitable for protecting private keys from
unauthorized access.
d) TPM is certified according to FIPS 140-2 level 2.
4) Authentication
a) IEEE 802.1X authentication.
b) Restrict access to pre-defined IP addresses, commonly known as IP
address filtering.
b. Long-Term Supported (LTS) firmware
1) The manufacturer must provide LTS firmware that only contains corrections for
critical bugs, security flaws and performance issues.
2) The device should maintain cybersecurity without introducing any significant
functional changes or affecting any existing integrations.
13. API support
a. The product shall be fully supported by an open and published API (Application
Programmers Interface), which shall provide necessary information for integration
of functionality into third-party applications.
b. The product shall conform to ONVIF profile G as defined by the ONVIF
Organization.
c. The product shall conform to ONVIF profile S as defined by the ONVIF
Organization.
d. The product shall conform to ONVIF profile T as defined by the ONVIF
Organization.
14. Embedded applications
a. The product shall provide a platform allowing the upload of third-party applications
into the camera.
15. Installation and maintenance
a. The product shall be supplied with Windows-based management software which
allows the assignment of IP addresses, upgrade of firmware and backup of the products’ configuration.
b. The product shall support the use of SNMP-based management tools according to
SNMP v1, 2c & 3 / MIB-II.
c. The product shall allow updates of the software (firmware) over the network, using
FTP or HTTP.
d. The product shall provide the ability to apply a rectangle of customer-defined
number of pixels to the image, which can be used as a pixel counter identifying the
size of objects in number of pixels.
e. The product shall accept external time synchronization from an NTP (Network
Time Protocol) server.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
39 of 67
f. The product shall store all customer-specific settings in a non-volatile memory that
shall not be lost during power cuts or soft reset.
16. Access log
a. The product shall provide a log file, containing information about the 250 latest connections and access attempts since the unit’s latest restart. The file shall
include information about the connecting IP addresses and the time of connecting.
b. The product shall provide a connection list of all currently connected viewers. The
file shall include information about connecting IP address, time of connecting and
the type of stream accessed.
17. Camera diagnostics
a. The product shall be equipped with LEDs, capable of providing visible status information. LEDs shall indicate the product’s operational status and provide
information about power, communication with receiver, the network status and the
product status.
b. The product shall be monitored by a Watchdog functionality, which shall
automatically re-initiate processes or restart the unit if a malfunction is detected.
c. The product shall send a notification when the unit has rebooted and all services
are initialized.
18. Hardware interfaces
a. Network interface
1) The product shall be equipped with one 10BASE-T/100BASE-TX Ethernet-port
using a RJ45 connector and shall support auto negotiation of network speed
(100 MBit/s and 10 MBit/s) and transfer mode (full and half duplex).
19. Enclosure
a. The product shall:
1) Be manufactured with an IP66/67-, NEMA250 4X- and IK10-rated aluminum
enclosure.
2) Be fitted with a fixed sunshield.
20. Power
a. The product shall be connected to a separate midspan and obtain power through a
network cable. The midspan shall use 100-240 V AC/50-60 Hz, max 66.1 W, and
provide the product with a maximum of:
1) 51 W when using a 60 W midspan
21. Environmental
a. The product shall:
1) Operate in a temperature range of -20 C to +50 C (-4 F to 122 F) (with 30
W)
2) Operate in a temperature range of -50 C to +50 C (-58 F to 122 F) (with 60
W)
3) Operate in a maximum temperature (intermittent) of 60 °C (140 °F)
4) Be able to start-up as low as -40 °C (-40 °F) (arctic temperature control)
5) Operate in a humidity range of 10–100% RH (condensing).
2.12 1080p FIXED IP DOME NETWORK CAMERA (use as noted on Exterior Camera Schedule, as
noted in Gym corner mounts, Corridors and Hallways, Cafeterias, wall mounted in stairwells
with glass on landing walls.)
A. Outdoor-ready HDTV 1080p fixed dome network camera shall be AXIS P3245-LVE OR
EQUAL.
B. The specified product shall meet or exceed the following design specifications:
1. The product shall operate on an open source and Linux-based platform, and include a
built-in web server.
2. The product shall be equipped with an IR-sensitive progressive scan megapixel sensor.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
40 of 67
3. The product shall provide a removable IR-cut filter, providing day/night functionality.
4. The product shall be equipped with a 3.4-8.9 mm varifocal IR-corrected megapixel lens
with P-Iris.
5. The product shall be equipped with remote zoom and focus, providing a horizontal field
of view between 100° and 36° and a vertical field of view between 53° and 20°.
6. The product shall be manufactured with a repaintable casing.
7. The product shall provide local video storage utilizing a
microSD/microSDHC/microSDXC memory card expansion.
8. The product shall be manufactured with an UV-resistant IP66- and NEMA 250 4X-rated
and IK10 impact-resistant polymer enclosure with dehumidifying membrane.
9. The product shall provide options for clear and smoked lower dome
C. The specified product shall meet or exceed the following performance specifications:
1. Illumination
a. The product shall meet or exceed the following illumination specifications:
1) 25/30 fps with Forensic WDR
a) 0.1 lux, F1.8 (color)
b) 0.02 lux, F1.8 (B/W)
c) 0 lux with IR illumination on
2. Resolution
a. The product shall be designed to provide video streams in HDTV 1080p
(1920x1080) at up to 60 frames per second (60Hz mode) or 50 frames per second
(50Hz mode) using H.264 or Motion JPEG.
b. The product shall provide 2 individually cropped out view areas.
c. The product shall support video resolutions including:
1) 1920x1080 (HDTV 1080p)
2) 1280x720 (HDTV 720p)
3) 1440x1080 (4:3)
4) 1440x900 (16:10)
d. The product shall provide both landscape format (4:3 and 16:9 aspect ratio) as well
as corridor format (3:4 and 9:16 aspect ratio).
3. Encoding
a. The product shall provide independently configured simultaneous H.264, H.265
and Motion JPEG streams.
b. The product shall provide configurable compression levels.
c. The product shall support standard baseline profile with motion estimation.
d. The product shall support motion estimation in H.264/MPEG-4 Part 10/AVC.
e. The product shall support the following video encoding algorithms:
1) Motion JPEG encoding in a selectable range from 1 up to 50/60 frames per
second.
2) Baseline Profile H.264 encoding with motion estimation in up to 50/60 frames
per second.
3) Main Profile H.264 and H.265 encoding with motion estimation and context-
adaptive binary arithmetic coding (CABAC) in up to 50/60 frames per second.
4) High Profile H.264 encoding with motion estimation up to 50/60 frames per
second.
f. The camera shall in H.264 and H.265 support combining Average Bit Rate (ABR)
and Maximum Bit Rate (MBR)
g. The camera shall be able to deliver predictable storage using Average Bit Rate
(ABR) bitrate controlling algorithm based on a bitrate budget and selected
retention time.
1) The camera shall be able to deliver predictable storage using Average Bit Rate
(ABR) bitrate controlling algorithm based on a bitrate budget and the selected
retention time.
a) The ABR bitrate algorithm, depending on the bitrate budget and the
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
41 of 67
selected retention time, shall adjust the bitrate to meet the bitrate budget
over the whole retention time.
b) The ABR algorithm shall have a method to keep the video quality even
during busy periods by allowing the current bitrate to be significantly
above the configured average bitrate during significant parts of the
retention time.
2) The camera shall in H.264 and H.265 support flexible retention period for
Average Bit Rate (ABR) algorithm up to 1 year.
3) When using Average Bit Rate (ABR) the camera shall keep bitrate history up to
at least 30 days.
4) The camera shall in H.264 and H.265 support reuse of past Average Bit Rate
(ABR) history if a stream is disconnected and the camera reconnects with the
same basic stream parameters.
5) When using Average Bit Rate (ABR), the camera shall in H.264 and H.265
support multiple parallel stream with independent ABR-history.
6) The camera shall issue bitrate degradation events when using Average Bit
Rate (ABR) if the configuration is predicted to be
a) unrealistic
b) not fulfilling basic quality requirements
c) not fulfilling the bitrate budget
h. The product shall support scene adaptive bitrate control with one of the following
capabilities to lower bandwidth and storage:
1) Automatic dynamic Region of Interest to reduce bitrate in unprioritized regions
in order to lowering bandwidth and storage requirements.
2) Automatic dynamic Group of Pictures to lower bandwidth and storage
requirements
3) Automatic dynamic Frames per Second to lower bandwidth and storage
requirements
4. Transmission
a. The product shall allow for video to be transported over:
1) HTTP (Unicast)
2) HTTPS (Unicast)
3) RTP (Unicast & Multicast)
4) RTP over RTSP (Unicast)
5) RTP over RTSP over HTTP (Unicast)
6) SRTP (Unicast & Multicast)
b. The product shall support Quality of Service (QoS) to be able to prioritize traffic.
5. Image
a. The product shall incorporate automatic and manual white balance.
b. The product shall incorporate an electronic shutter operating in the range of
1/66500 s to 2 s.
c. The product shall incorporate capture mode with the following settings:
1) HDTV 1080p (1920x1080) with WDR: 25/30 fps (50/60 Hz)
2) HDTV 1080p (1920x1080) without WDR: Up to 50/60 fps (50/60 Hz)
d. The product shall incorporate forensic wide dynamic range functionality providing
up to 120 dB dynamic range.
e. The product shall support manually defined values for:
1) Saturation
2) Brightness
3) Sharpness
4) Contrast
f. The product shall incorporate a function to manually correct barrel distortion, by
using a slider to correct distortion in the image.
g. The product shall incorporate a function for optimization of low light behavior.
h. The product shall allow for rotation of the image in steps of 90º.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
42 of 67
i. The product shall incorporate automatic defog functionality.
6. Audio
a. The product shall support two-way full duplex audio:
1) Input sources
a) External microphone
b) External line device
c) External digital line device with ring power
2) Output sources
a) External line device
b. The camera shall support automatic gain control.
c. Encoding
1) The product shall support:
a) AAC LC at 8/16/32/44.1/48 kHz
b) 48–bit LPCM
c) G.711 PCM at 8 kHz
d) G.726 ADPCM at 8 kHz
e) Opus at 8/16/48kHz
d. The unit shall support SIP for integration with VoIP, peer-to-peer or integrated into
SIP/PBX.
7. IR Illumination
a. The product shall be equipped with built-in IR LEDs with adjustable illumination
intensity and with a range of up to 40 m (130 ft), with a wavelength of 850 nm.
8. User Interface
a. Web server
1) The product shall contain a built-in web server making video and configuration
available to multiple clients in a standard operating system and browser
environment using HTTP, without the need for additional software.
2) Optional components downloaded from the product for specific tasks shall be
signed by an organization providing digital trust services.
b. Language Specification
1) The product shall provide a function for altering the language of the user
interface, and shall include support for at least 10 different languages.
c. IP addresses
1) The product shall support both fixed IP addresses and dynamically assigned IP
addresses provided by a Dynamic Host Control Protocol (DHCP) server.
2) The product shall allow for automatic detection of the product based on UPnP
and Bonjour when using a computer with an operating system supporting this
feature.
3) The product shall provide support for both IPv4 and IPv6.
9. PTZ functionality
a. The product shall:
1) Provide digital PTZ functionality.
2) Provide preset positions functionality.
10. Event functionality
a. The product shall be equipped with an integrated event functionality:
1) Audio
a) Audio detection
2) Device status
a) Operating temperature
b) IP address
c) Network lost
d) Ringpower overcurrent protection
e) Storage failure
f) System ready
3) Edge storage
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
43 of 67
a) Recording ongoing
b) Storage disruption
4) I/O
a) Digital input
b) Manual trigger
c) Virtual inputs
5) Q6055
a) Malfunctioning
b) Movement
c) Preset position reached
d) Ready
6) Scheduled and recurring
7) Video
a) Average bitrate degradation
b) Day-night mode
c) Live stream open
d) Tampering
b. Response to triggers shall include event actions:
1) Play audio clips
2) Day-night mode
3) Defog
4) Guard tours
5) I/O
6) Upload of images and video clips: FTP, HTTP, HTTPS, SFTP, email or network
share
7) IR illumination
8) Send notification: HTTP, HTTPS, TCP and email
9) Overlay text
10) Preset positions
11) Prioritized text
12) Recordings
13) SNMP trap messages
14) Status LED
15) WDR mode
c. The product shall provide memory for pre- and post-alarm recordings.
11. Edge storage
a. The product shall support continuous and event controlled recording to:
1) Local memory added to the products microSD-card slot
2) Network attached storage, located on the local network
b. The product shall incorporate encryption functionality for the SD card.
c. The product shall be able to detect and notify edge storage disruptions.
12. Protocol
a. The product shall incorporate support for at least IPv4, IPv6 USGv6, HTTP,
HTTPS, SSL/TLS, QoS Layer 3 DiffServ, FTP, SFTP, CIFS/SMB, SMTP, Bonjour,
UPnP, SNMP v1/v2c/v3 (MIB-II), DNS, DynDNS, NTP, RTSP, RTP, SRTP, TCP,
UDP, IGMP, RTCP, ICMP, DHCP, ARP, SOCKS, SSH, SIP, LLDP, MQTT.
b. The SMTP implementation shall include support for SMTP authentication.
13. Text overlay
a. The product shall:
1) Provide embedded on-screen text with support for date & time, and a customer-
specific text, product name, of at least 45 ASCII characters.
2) Provide the possibility to choose different font sizes for embedded on-screen
text, and to use white or black text on at least four different backgrounds.
3) Provide the ability to manually set up and configure privacy masks to the
image.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
44 of 67
4) Allow for the overlay of a graphical image, such as a logotype, into the image.
14. Security
a. The product shall support the following:
1) Secure web browsing
a) The use of HTTPS and SSL/TLS, providing the ability to upload signed
certificates to encrypt and secure authentication and communication of
both administration data and video streams.
b) Restrict access to the built-in web server by usernames and passwords
at three different levels.
2) Certificate management
a) Provide centralized certificate management, with both pre-installed CA
certificates and the ability to upload additional CA certificates. The
certificates shall be signed by an organization providing digital trust
services.
3) Enhanced security features
a) The use of signed firmware validates the firmware’s integrity before
accepting to install it.
b) The use of a secure boot process, based on the use of signed firmware,
ensures that the product can boot only with authorized firmware.
4) Authentication
a) IEEE 802.1X authentication.
b) Restrict access to pre-defined IP addresses, commonly known as IP
address filtering.
5) Brute force delay protection
b. Long-Term Supported (LTS) firmware
1) The manufacturer must provide LTS firmware that only contains corrections for
critical bugs, security flaws and performance issues.
2) The device should maintain cybersecurity without introducing any significant
functional changes or affecting any existing integrations.
15. System integration
a. The product shall be fully supported by an open and published API (Application
Programmers Interface), which shall provide necessary information for integration
of functionality into third-party applications.
b. The product shall conform to ONVIF profile G as defined by the ONVIF
Organization.
c. The product shall conform to ONVIF profile S as defined by the ONVIF
Organization.
d. The product shall conform to ONVIF profile T as defined by the ONVIF
Organization.
e. Support for Session Initiation Protocol (SIP) for integration with Voice over IP
(VoIP) systems, peer to peer or integrated with SIP/PBX
16. Analytics
a. The product shall provide a platform allowing the upload of third-party applications
into the camera.
b. The camera shall support advanced video analytics capabilities with a built-in
hardware-accelerated real-time object detect engine, capable of automatically
detecting several simultaneously visible objects from a set of pre-trained object
categories (such as vehicles and people).
17. Installation and maintenance
a. The product shall be supplied with Windows-based management software which
allows the assignment of IP addresses, upgrade of firmware and backup of the products’ configuration.
b. The product shall support the use of SNMP-based management tools according to
SNMP v1, 2c & 3 / MIB-II.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
45 of 67
c. The product shall allow updates of the software (firmware) over the network, using
FTP or HTTP.
d. The product shall provide the ability to apply a rectangle of customer-defined
number of pixels to the image, which can be used as a pixel counter identifying the
size of objects in number of pixels.
e. The product shall accept external time synchronization from an NTP (Network
Time Protocol) server.
f. The product shall store all customer-specific settings in a non-volatile memory that
shall not be lost during power cuts or soft reset.
g. The product shall provide remote zoom and remote focus functionality.
18. Access log
a. The product shall provide a log file, containing information about the 250 latest
connections and access attempts since the unit’s latest restart. The file shall
include information about the connecting IP addresses and the time of connecting.
b. The product shall provide a connection list of all currently connected viewers. The
file shall include information about connecting IP address, time of connecting and
the type of stream accessed.
19. Camera diagnostics
a. The product shall be equipped with LEDs, capable of providing visible status information. LEDs shall indicate the product’s operational status and provide
information about power, communication with receiver, the network status and the
product status.
b. The product shall be monitored by a Watchdog functionality, which shall
automatically re-initiate processes or restart the unit if a malfunction is detected.
c. The product shall send a notification when the unit has rebooted and all services
are initialized.
20. Hardware interfaces
a. Network interface
1) The product shall be equipped with one 10BASE-T/100BASE-TX Ethernet-port
using a RJ45 connector and shall support auto negotiation of network speed
(100 MBit/s and 10 MBit/s) and transfer mode (full and half duplex).
b. Inputs/Outputs
1) The product shall be equipped with one digital (alarm) input and one digital
output, accessible via a removable terminal block. This input shall be
configurable to respond to normally open (NO) or normally closed (NC) dry
contacts. The output shall be able to provide 12 V DC, 15 mA.
c. Audio
1) The product shall be equipped with one 4-pin 2.5 mm (0.098 in) terminal block
for audio in and out.
21. Enclosure
a. The product shall:
1) Be manufactured with an IP66 and NEMA250 4X-rated, and IK10-resistant
polymer enclosure.
2) Be fitted with a dehumidifying membrane.
3) Be fitted with a fixed weather shield.
22. Power
a. The product shall provide power over Ethernet IEEE 802.3af/802.3at Type 1 Class
3
1) Max: 11.3 W
2) Typical: 6.4 W
23. Environmental
a. The product shall:
1) Operate in a temperature range of -40 °C to +50 °C (-40 °F to 122 °F)
2) Operate in a maximum temperature (intermittent) of 55 °C (131 °F)
3) Operate in a humidity range of 10–100% RH (condensing).
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
46 of 67
2.13 360-DEGREE CAMERA – 8MP (use as shown on the Exterior Camera schedule, as noted in
Office Waiting areas, Vestibules as noted, in hallways outside Lavatory Entrances as noted,
Corridors as noted, Roof-tops as noted, and on the AED Emergency Callbox Tower units as
noted.)
A. Fixed dome multi-sensor panoramic network camera shall be Axis P3717-PLE, Arecont,
Panasonic OR EQUAL.
B. Cameras shall be 8MP, IP-based and comply with established network and video standards.
C. 360-Degree cameras shall be installed as indicated on the contract drawings, and installed on
the roof-top parapet locations and the Emergency Phone/AED applications.
D. Cameras shall be powered by the switch utilizing the network cable. Power injectors
(midspans) shall be provided by the Security Subcontractor when required for proper
operation.
E. Cameras shall be fully supported by an open and published API (Application Programmers
Interface), which shall provide necessary information for integration of functionality into third
party applications.
F. Cameras shall comply with relevant ONVIF profile as defined by the ONVIF Organization.
G. The panoramic network camera shall meet or exceed the following design specifications:
1. The camera shall operate on an open source; Linux-based platform, and including a
built-in web server.
2. The camera shall be equipped with four progressive scan megapixel sensors.
3. The camera shall provide flexible positioning of four varifocal camera heads.
4. The camera shall provide the following field of view:
a. 4x 1080p
1) Horizontal: 108° - 54°
2) Vertical: 57° - 30°
b. 4x 720p
1) Horizontal: 67° - 36°
2) Vertical: 37° - 20°
5. The camera shall provide adjustable focus and zoom functionality.
6. The camera shall provide local video storage utilizing a
microSD/microSDHC/microSDXC memory card expansion.
7. The camera shall be manufactured with an IP66-, NEMA 4X- and IK09-rated Die-casted
aluminum casing.
8. The camera shall provide:
a. Pan ± 90°
b. Tilt 28° - 92°
c. Rotate ± 90°
H. The panoramic network camera shall meet or exceed the following performance specifications:
1. Illumination: The camera shall meet or exceed the following illumination specifications:
a. 0.3 lux in color
2. Resolution
a. The camera shall be designed to provide 4x video streams in HDTV 1080p
(1920x1080) at up to 15 frames per second (60Hz mode) or 12.5 frames per
second (50Hz mode) using H.264 or Motion JPEG.
b. The camera shall be designed to provide 4x video streams in HDTV 720p
(1280x720) at up to 30 frames per second (60Hz mode) or 25 frames per second
(50Hz mode) using H.264 or Motion JPEG.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
47 of 67
c. The camera shall be designed to provide quad view in resolution up to 1920x1440.
d. The camera shall support video resolutions including:
1) 1920x1440 (Quad view)
2) 1920x1080 (HDTV 1080p)
3) 1280x720 (HDTV 720p)
e. The camera shall provide both landscape format (4:3 and 16:9 aspect ratio) as well
as corridor format (3:4 and 9:16 aspect ratio).
3. Encoding
a. The camera shall support the following video encoding algorithms:
1) Motion JPEG encoding in a selectable range from 1 up to 25/30 frames per
second in all resolutions.
2) Baseline Profile H.264 encoding with motion estimation in up to 25/30 frames
per second.
3) Main Profile H.264 encoding with motion estimation and context-adaptive
binary arithmetic coding (CABAC) in up to 25/30 frames per second.
4) Support High Profile H.264 encoding with motion estimation up to 25/30 frames
per second.
5) Support H.264 with automatic scene adaptive bitrate control in up to 25/30
frames per second.
b. The camera shall provide independently configured simultaneous H.264 and
Motion JPEG streams.
c. The camera shall in H.264 support Variable Bit Rate (VBR) for video quality
adapted to scene content. To protect the network from unexpected bit rate speaks
the camera shall support Constant Bit Rate (CBR) or Maximum Bit Rate (MBR).
d. The camera shall provide configurable compression levels.
e. Support standard baseline profile H.264 with motion estimation.
f. Support motion estimation in H.264/MPEG-4 Part 10/AVC.
g. The camera shall for its H.264 implementation support scene adaptive bitrate
control with automatic dynamic ROI to reduce bitrate in unprioritized regions in
order to lowering bandwidth and storage requirements.
4. Transmission
a. The camera shall allow for video to be transported over:
1) HTTP (Unicast)
2) HTTPS (Unicast)
3) RTP (Unicast & Multicast)
4) RTP over RTSP (Unicast)
5) RTP over RTSP over HTTP (Unicast)
b. The camera shall support Quality of Service (QoS) to be able to prioritize traffic.
5. Image
a. The camera shall incorporate Automatic and Manual White Balance.
b. The camera shall incorporate an electronic shutter operating in the range of:
1) 720p: 1/28000s to 2s
2) 1080p: 1/22500s to 2s
c. The camera shall incorporate capture mode with the following settings:
1) HDTV 1080p 12.5/15 fps
2) HDTV 720p 25/30 fps
d. The camera shall support manually defined values for:
1) Color level
2) Brightness
3) Sharpness
4) Contrast
e. The camera shall incorporate a function for optimization of low light behavior.
f. The camera shall allow for rotation of the image in steps of 90°.
g. The camera shall incorporate local contrast functionality.
6. User Interface
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
48 of 67
a. Web server
1) The camera shall contain a built-in web server making video and configuration
available to multiple clients in a standard operating system and browser
environment using HTTP, without the need for additional software.
2) Optional components downloaded from the camera for specific tasks, e.g.
Active X, shall be signed by an organization providing digital trust services,
such as Verisign, Inc.
b. Language Specification
1) The camera shall provide a function for altering the language of the user
interface and shall include support for at least 10 different languages.
c. IP addresses
1) The camera shall support both fixed IP addresses and dynamically assigned IP
addresses provided by a Dynamic Host Control Protocol (DHCP) server.
2) The camera shall allow for automatic detection of the camera based on UPnP
and Bonjour when using a PC with an operating system supporting this feature.
3) The camera shall provide support for both IPv4 and IPv6.
7. Event functionality
a. The camera shall be equipped with an integrated event functionality, which can be
trigged by:
1) Video Motion Detection
2) Live Stream Accessed
3) Camera tampering
4) Manual Trigger/Virtual Inputs
5) Embedded third party applications
6) Edge storage disruption detection
b. Response to triggers shall include:
1) Send notification, using HTTP, HTTPS, TCP, SNMP trap or email
2) Send images, using FTP, HTTP, HTTPS, network share or email
3) Send video clip, using FTP, HTTP, HTTPS, network share or email
4) Recording to local storage and/or network attached storage
5) Overlay Text
c. The camera shall provide memory for pre & post alarm recordings.
8. Edge storage
a. The camera shall support continuous and event-controlled recording to:
1) Local memory added to the cameras SD-card slot
2) Network attached storage, located on the local network
b. The camera shall be able to detect and notify Edge storage disruptions.
9. Protocol
a. The camera shall incorporate support for at least IPv4/v6, HTTP, HTTPS,
SSL/TLS, QoS Layer 3 DiffServ, TCP, ICMP, SNMPv1/v2c/v3 (MIB-II), RTSP,
RTP, UDP, IGMP, RTCP, SMTP, FTP, DHCP, UPnP, ARP, DNS, DynDNS,
SOCKS, SSH, NTP, CIFS/SMB, Bonjour.
b. The SMTP implementation shall include support for SMTP authentication.
10. Text overlay
a. The camera shall:
1) Provide embedded on-screen text with support for date & time, and a customer-
specific text, camera name, of at least 45 ASCII characters.
2) Provide the ability to apply privacy masks to the image.
3) Allow for the overlay of a graphical image, such as a logotype, into the image.
11. Security
a. The camera shall support the use of HTTPS and SSL/TLS, providing the ability to
upload signed certificates to encrypt and secure authentication and communication
of both administration data and video streams.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
49 of 67
b. The camera shall provide centralized certificate management, with both pre-
installed CA certificates and the ability to upload additional CA certificates. The
certificates shall be signed by an organization providing digital trust services.
c. The camera shall support IEEE 802.1X authentication.
d. The camera shall provide support for restricting access to pre-defined IP
addresses only, so-called IP address filtering.
e. The camera shall restrict access to the built-in web server by usernames and
passwords at three different levels.
12. API support
a. The camera shall be fully supported by an open and published API (Application
Programmers Interface), which shall provide necessary information for integration
of functionality into third party applications.
b. The camera shall support relevant ONVIF profiles as defined by the ONVIF
Organization.
13. Embedded applications
a. The camera shall provide a platform allowing the upload of third-party applications
into the camera.
14. Installation and maintenance
a. The camera shall be supplied with Windows-based management software which
allows the assignment of IP addresses, upgrade of firmware and backup of the
cameras’ configuration.
b. The camera shall support the use of SNMP-based management tools according to
SNMP v1, 2c & 3 / MIB-II.
c. The camera shall allow updates of the software (firmware) over the network, using
FTP or HTTP.
d. The camera shall provide the ability to apply a rectangle of customer-defined
number of pixels to the image, which can be used as a pixel counter identifying the
size of objects in number of pixels.
e. The camera shall accept external time synchronization from an NTP (Network
Time Protocol) server.
f. The camera shall store all customer-specific settings in a non-volatile memory that
shall not be lost during power cuts or soft reset.
15. Access log
a. The camera shall provide a log file, containing information about the 250 latest
connections and access attempts since the unit’s latest restart. The file shall
include information about the connecting IP addresses and the time of connecting.
b. Provide a connection list of all currently connected viewers. The file shall include
information about connecting IP address, time of connecting and the type of
stream accessed.
16. Camera diagnostics
a. The camera shall be equipped with LEDs, capable of providing visible status information. LEDs shall indicate the camera’s operational status and provide
information about power, communication with receiver, the network status and the
camera status.
b. The camera shall be monitored by a Watchdog functionality, which shall
automatically re-initiate processes or restart the unit if a malfunction is detected.
c. The camera shall send a notification when the unit has re-booted and all services
are initialized.
17. Hardware interfaces
a. Network interface
1) The camera shall be equipped with one 10BASE-T/100BASE-TX PoE Fast
Ethernet-port, using a standard male RJ45 connector and shall support auto
negotiation of network speed (100 MBit/s and 10 MBit/s) and transfer mode (full
and half duplex).
18. Enclosure
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
50 of 67
a. The camera shall:
1) Be manufactured with an IP66-, NEMA 4X- and IK09-rated Die-casted
aluminum casing.
2) Be fitted with a polycarbonate dome.
19. Power
a. Power over Ethernet IEEE 802.3af/802.3at Type 1 Class 2
b. Typical 4.8 W
c. Max 5.5 W
20. Environmental
a. Operate in a temperature range of -30 C to +60 C (-22 F to 140 F).
b. Operate in a humidity range of 10–100% RH (condensing).
2.14 Exterior Fixed 4K (8.3 MP) Dome Cameras (as noted on Exterior Camera Schedule, and as
noted on drawings)
A. Exterior Fixed 4K(8.3 MP) Dome Cameras for Courtyards shall be P3228-LVE OR EQUAL.
B. The dome network camera shall meet or exceed the following design specifications:
1. The camera shall operate on an open source; Linux-based platform, and including a
built-in web server.
2. The camera shall be equipped with an IR-sensitive progressive scan megapixel sensor.
3. The camera shall provide a removable IR-cut filter, providing day/night functionality.
4. The camera shall be equipped with a varifocal lens with P-iris.
5. The camera shall provide local video storage utilizing a
microSD/microSDHC/microSDXC memory card expansion.
6. The camera shall be manufactured with an IP66- and NEMA 4X-rated, IK10 impact-
resistant casing.
7. The camera shall provide a manual 3-axis (pan/tilt/rotation) positioning to allow
adjustment for optimum camera rotation and placement.
8. The camera shall provide options for clear and smoked lower dome.
C. The dome network camera shall meet or exceed the following performance specifications:
1. Illumination
a. 0.19 lux F1.7 (color)
b. 0.04 lux F1.7 (B/W)
c. 0 lux with IR illumination on
2. Resolution
a. The camera shall be designed to provide video streams in (3840x2160) at up to 30
frames per second (60Hz mode) or 25 frames per second (50Hz mode) using
H.264 or Motion JPEG.
b. The camera shall provide up to 8 individually cropped out view areas.
c. The camera shall support video resolutions including:
1) 3840x2160
2) 1920x1080 (HDTV 1080p)
3) 1280x720 (HDTV 720p)
d. The camera shall provide both landscape format (4:3 and 16:9 aspect ratio) as well
as corridor format (3:4 and 9:16 aspect ratio).
3. Encoding
a. The camera shall support the following video encoding algorithms:
1) Motion JPEG encoding in a selectable range from 1 up to 25/30 frames per
second in all resolutions.
2) Baseline Profile H.264 encoding with motion estimation in up to 25/30 frames
per second.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
51 of 67
3) Main Profile H.264 encoding with motion estimation and context-adaptive
binary arithmetic coding (CABAC) in up to 25/30 frames per second.
4) Support High Profile H.264 encoding with motion estimation up to 25/30 frames
per second.
5) Support H.264 with automatic scene adaptive bitrate control in up to 25/30
frames per second.
b. The camera shall provide independently configured simultaneous H.264 and
Motion JPEG streams.
c. The camera shall in H.264 | H.265 support combining Average Bit Rate (ABR) and
Maximum Bit Rate (MBR)
d. The camera shall be able to deliver predictable storage using Average Bit Rate
(ABR) bitrate controlling algorithm based on a bitrate budget and selected
retention time.
e. The camera shall be able to deliver predictable storage using Average Bit Rate
(ABR) bitrate controlling algorithm based on a bitrate budget and the selected
retention time.
1) The ABR bitrate algorithm, depending on the bitrate budget and the selected
retention time, shall adjust the bitrate to meet the bitrate budget over the whole
retention time.
2) The ABR algorithm shall have a method to keep the video quality even during
busy periods by allowing the current bitrate to be significantly above the
configured average bitrate during significant parts of the retention time.
f. The camera shall in H.264 | H.265 support flexible retention period for Average Bit
Rate (ABR) algorithm up to 1 year.
g. When using Average Bit Rate (ABR) the camera shall keep bitrate history up to at
least 30 days.
h. The camera shall in H.264 | H.265 support reuse of past Average Bit Rate (ABR)
history if a stream is disconnected and the camera reconnects with the same basic
stream parameters.
i. When using Average Bit Rate (ABR), the camera shall in H.264 | H.265 support
multiple parallel stream with independent ABR-history.
j. The camera shall issue bitrate degradation events when using Average Bit Rate
(ABR) if the configuration is predicted to be
1) unrealistic
2) not fulfilling basic quality requirements
3) not fulfilling the bitrate budget.
k. The camera shall provide configurable compression levels.
l. Support standard baseline profile H.264 with motion estimation.
m. Support motion estimation in H.264/MPEG-4 Part 10/AVC.
n. The camera shall for its H.264 implementation support scene adaptive bitrate
control with automatic dynamic ROI to reduce bitrate in unprioritized regions in
order to lowering bandwidth and storage requirements.
4. Transmission
a. The camera shall allow for video to be transported over:
1) HTTP (Unicast)
2) HTTPS (Unicast)
3) RTP (Unicast & Multicast)
4) RTP over RTSP (Unicast)
5) RTP over RTSP over HTTP (Unicast)
b. The camera shall support Quality of Service (QoS) to be able to prioritize traffic.
5. Image
a. The camera shall incorporate Automatic and Manual White Balance.
b. The camera shall incorporate an electronic shutter operating in the range of
1/62500 s to 2 s.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
52 of 67
c. The camera shall incorporate Wide Dynamic Range - Forensic Capture
functionality providing up to120 dB dynamic range.
d. The camera shall support manually defined values for:
1) Color level
2) Brightness
3) Sharpness
4) Contrast
e. The camera shall incorporate a function for optimization of low light behavior.
f. The camera shall allow for rotation of the image in steps of 90º.
6. Audio
a. The camera shall support two-way audio connectivity via portcast technology with
an accessory audio and I/O interface device.
7. IR Illumination
a. The camera shall be equipped with built-in IR LEDs
1) The IR LEDs shall have a range of up to 30 m (100 ft)
2) The IR LEDs shall emit light with a wavelength of 850 nm
8. User Interface
a. Web server
1) The camera shall contain a built-in web server making video and configuration
available to multiple clients in a standard operating system and browser
environment using HTTP, without the need for additional software.
2) Optional components downloaded from the camera for specific tasks shall be
signed by an organization providing digital trust services, such as Verisign, Inc.
9. Language Specification
a. The camera shall provide a function for altering the language of the user interface,
and shall include support for at least 10 different languages.
10. IP addresses
a. The camera shall support both fixed IP addresses and dynamically assigned IP
addresses provided by a Dynamic Host Control Protocol (DHCP) server.
b. The camera shall allow for automatic detection of the camera based on UPnP and
Bonjour when using a PC with an operating system supporting this feature.
c. The camera shall provide support for both IPv4 and IPv6.
11. PTZ functionality
a. The camera shall:
1) Provide Digital PTZ functionality.
2) Provide preset position functionality
12. Event functionality
a. The camera shall be equipped with an integrated event functionality, which can be
trigged by:
1) Video Motion Detection
2) Live Stream Accessed
3) Camera tampering
4) Manual Trigger/Virtual Inputs
5) PTZ functionality
6) Embedded third party applications
7) Edge storage disruption detection
b. Response to triggers shall include:
1) Send notification, using HTTP, HTTPS, TCP, SNMP trap or email
2) Send images, using FTP, HTTP, HTTPS, network share or email
3) Send video clip, using FTP, HTTP, HTTPS, network share or email
4) Send SNMP trap message
5) Activating embedded illumination/IR LED
6) Recording to local storage and/or network attached storage
7) PTZ control functionality
c. The camera shall provide memory for pre & post alarm recordings.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
53 of 67
13. Edge storage
a. The camera shall support continuous and event controlled recording to:
1) Local memory added to the cameras SD-card slot
2) Network attached storage, located on the local network
b. The camera shall be able to detect and notify Edge storage disruptions.
14. Protocol
a. The camera shall incorporate support for at least IPv4, IPv6 USGv6, HTTP,
HTTPS, SSL/TLS, QoS Layer 3 DiffServ, FTP, SFTP, CIFS/SMB, SMTP, Bonjour,
UPnP®, SNMP v1/v2c/v3 (MIB-II), DNS, DynDNS, NTP, RTSP, RTP, SRTP, TCP,
UDP, IGMP, RTCP, ICMP, DHCP, ARP, SIP, SOCKS, SSH, LLDP, MQTT
b. The SMTP implementation shall include support for SMTP authentication.
15. Text overlay
a. The camera shall:
1) Provide embedded on-screen text with support for date & time, and a customer-
specific text, camera name, of at least 45 ASCII characters.
2) Provide the ability to apply privacy masks to the image.
3) Allow for the overlay of a graphical image, such as a logotype, into the image.
16. Security
a. The camera shall support the following:
1) Secure web browsing
2) The use of HTTPS and SSL/TLS, providing the ability to upload signed
certificates to encrypt and secure authentication and communication of both
administration data and video streams.
3) Restrict access to the built-in web server by usernames and passwords at three
different levels.
b. Certificate management
1) Provide centralized certificate management, with both pre-installed CA
certificates and the ability to upload additional CA certificates. The certificates
shall be signed by an organization providing digital trust services.
c. Enhanced security features
1) The use of signed firmware validates the firmware’s integrity before accepting
to install it.
2) The use of a secure boot process, based on the use of signed firmware,
ensures that the camera can boot only with authorized firmware.
d. Authentication
1) IEEE 802.1x (EAP-TLS) authentication.
2) Restrict access to pre-defined IP addresses, commonly known as IP address
filtering.
e. Brute force delay protection
17. API support
a. The camera shall be fully supported by an open and published API (Application
Programmers Interface), which shall provide necessary information for integration
of functionality into third party applications.
b. The camera shall conform to ONVIF profile G as defined by the ONVIF
Organization.
c. The camera shall conform to ONVIF profile S as defined by the ONVIF
Organization.
d. The camera shall conform to ONVIF profile T as defined by the ONVIF
Organization.
e. Support for Session Initiation Protocol (SIP) for integration with Voice over IP
(VoIP) systems, peer to peer or integrated with SIP/PBX.
18. Embedded applications
a. The camera shall provide a platform allowing the upload of third party applications
into the camera.
19. Installation and maintenance
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
54 of 67
a. The camera shall be supplied with Windows-based management software which
allows the assignment of IP addresses, upgrade of firmware and backup of the
cameras’ configuration.
b. The camera shall support the use of SNMP-based management tools according to
SNMP v1, 2c & 3 / MIB-II.
c. The camera shall allow updates of the software (firmware) over the network, using
FTP or HTTP.
d. The camera shall provide the ability to apply a rectangle of customer-defined
number of pixels to the image, which can be used as a pixel counter identifying the
size of objects in number of pixels.
e. The camera shall accept external time synchronization from an NTP (Network
Time Protocol) server.
f. The camera shall store all customer-specific settings in a non-volatile memory that
shall not be lost during power cuts or soft reset.
g. The camera shall provide Remote zoom and Remote focus functionality.
20. Access log
a. The camera shall provide a log file, containing information about the 250 latest connections and access attempts since the unit’s latest restart. The file shall
include information about the connecting IP addresses and the time of connecting.
b. Provide a connection list of all currently connected viewers. The file shall include
information about connecting IP address, time of connecting and the type of
stream accessed.
21. Camera diagnostics
a. The camera shall be equipped with LEDs, capable of providing visible status
information. LEDs shall indicate the camera’s operational status and provide
information about power, communication with receiver, the network status and the
camera status.
b. The camera shall be monitored by a Watchdog functionality, which shall
automatically re-initiate processes or restart the unit if a malfunction is detected.
c. The camera shall send a notification when the unit has re-booted and all services
are initialized.
22. Hardware interfaces
a. Network interface
1) The camera shall be equipped with one 10BASE-T/100BASE-TX PoE Fast
Ethernet-port, using a standard RJ45 connector and shall support auto
negotiation of network speed (100 MBit/s and 10 MBit/s) and transfer mode (full
and half duplex).
b. Inputs/Outputs
1) The camera shall provide I/O connectivity via portcast technology with an
accessory audio and I/O interface device.
c. Audio
1) The product shall be equipped with one 4-pin 2.5 mm (0.098 in) terminal block
for audio in and out.
23. Enclosure
a. The camera shall:
1) Be manufactured with an IP66- and NEMA 4X-rated, IK10 impact-resistant
casing.
2) Be fitted with a dehumidifying membrane.
3) Provide encapsulated electronics and captive screws.
24. Power
a. Power over Ethernet IEEE 802.3af/802.3at Type 1 Class 3
1) Max: 11.5 W
2) Typical: 8.6 W
25. Environmental
a. The camera shall:
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
55 of 67
1) Operate in a temperature range of -40 °C to 50 °C (-40 °F to 122 °F).
2) Operate in a humidity range of 10–100% RH (condensing).
3) Be stored in a humidity range of 5-95% RH (non-condensing).
2.15 ELEVATOR CAMERA (as noted in Elevators)
A. The 3MP fixed dome network camera shall be AXIS P9106-V OR EQUAL.
1. The 3MP fixed dome network camera shall meet or exceed the following design
specifications:
a. The camera shall operate on an open source and Linux-based platform and
include a built-in web server.
b. The camera shall be equipped with a 1/3” progressive scan megapixel sensor.
c. The camera shall be equipped with a 1.8 mm lens with fixed iris and fixed focus,
providing a horizontal field of 130 and a vertical field of 95.
d. The camera shall be manufactured with a repaintable casing.
e. The camera shall be manufactured with a polycarbonate hard-coated dome in a
zinc and aluminum casing.
f. For its brushed steel version, the camera shall be manufactured with a
polycarbonate hard-coated dome in a zinc and aluminum casing, supplied with a
brushed stainless-steel cover.
g. The camera shall be manufactured with an IP66-rated, IK10 impact-resistant metal
(aluminum) casing.
h. The camera shall provide local video storage utilizing a
microSD/microSDHC/microSDXC memory card expansion.
2. The 3MP fixed dome network camera shall meet or exceed the following performance
specifications:
a. Illumination
1) The camera shall meet or exceed the following illumination specifications:
a) Color: 0.35 lux at 50 IRE F2.4
3. Resolution
a. The camera shall be designed to provide video streams in max video resolution
(2016x1512) and in HDTV 1080p (1920x1080) at up to 30 frames per second
(60Hz mode) or 25 frames per second (50Hz mode) using H.264 or Motion JPEG.
b. The camera shall provide two individually cropped out view areas.
c. The camera shall support video resolutions including:
1) 2016x1512 (3 MP, 4:3)
2) 1920x1080 (HDTV 1080p)
3) 1280x720 (HDTV 720p)
d. The camera shall provide landscape format (4:3 and 16:9 aspect ratio).
4. Encoding
a. The camera shall provide independently configured simultaneous H.264 and
Motion JPEG streams.
b. The camera shall provide configurable compression levels.
c. The camera shall support standard baseline profile with motion estimation.
d. The camera shall support motion estimation in H.264/MPEG-4 Part 10/AVC.
e. The camera shall support the following video encoding algorithms:
1) Motion JPEG encoding in a selectable range from 1 up to 25/30 frames per
second.
2) Baseline Profile H.264 encoding with motion estimation in up to 25/30 frames
per second.
3) Main Profile H.264 encoding with motion estimation and context-adaptive
binary arithmetic coding (CABAC) in up to 25/30 frames per second.
4) High Profile H.264 encoding with motion estimation up to 25/30 frames per
second.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
56 of 67
f. The camera shall in H.264 support Variable Bit Rate (VBR) and Maximum Bit Rate
(MBR).
g. The camera shall support scene adaptive bitrate control with one of the following
capabilities to lower bandwidth and storage:
1) Automatic dynamic Region of Interest to reduce bitrate in unprioritized regions
to lower bandwidth and storage requirements.
2) Automatic dynamic Group of Pictures to lower bandwidth and storage
requirements.
3) Automatic dynamic Frames per Second to lower bandwidth and storage
requirements.
5. Transmission
a. The camera shall allow for video to be transported over:
1) HTTP (Unicast)
2) HTTPS (Unicast)
3) RTP (Unicast & Multicast)
4) RTP over RTSP (Unicast)
5) RTP over RTSP over HTTP (Unicast)
b. The camera shall support Quality of Service (QoS) to be able to prioritize traffic.
6. Image
a. The camera shall incorporate automatic and manual white balance.
b. The camera shall incorporate an electronic shutter operating in the range of
1/32500 s to 1/5 s.
c. The camera shall incorporate wide dynamic range functionality.
d. The camera shall support manually defined values for:
1) Saturation
2) Brightness
3) Sharpness
4) Contrast
e. The camera shall allow for rotation of the image in steps of 90º.
7. Audio
a. The camera shall support two-way audio connectivity via portcast technology with
an accessory audio and I/O interface device.
8. User Interface
a. Web server
1) The camera shall contain a built-in web server making video and configuration
available to multiple clients in a standard operating system and browser
environment using HTTP, without the need for additional software.
2) Optional components downloaded from the camera for specific tasks shall be
signed by an organization providing digital trust services.
b. Language Specification
1) The camera shall provide a function for altering the language of the user
interface and shall include support for at least 10 different languages.
c. IP addresses
1) The camera shall support both fixed IP addresses and dynamically assigned IP
addresses provided by a Dynamic Host Control Protocol (DHCP) server.
2) The camera shall allow for automatic detection of the camera based on UPnP
and Bonjour when using a computer with an operating system supporting this
feature.
3) The camera shall provide support for both IPv4 and IPv6.
9. PTZ functionality
a. The camera shall:
1) Provide digital PTZ functionality.
2) Provide preset positions functionality.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
57 of 67
3) Provide a guard tour functionality which allows the dome to automatically move
between selected presets using an individual speed and viewing time for each
preset.
10. Event functionality
a. The camera shall be equipped with an integrated event functionality:
1) Detectors functionality
a) Video motion detection
2) Input Signal functionality
a) Virtual inputs through API
b) Camera tampering
3) System functionality
a) Embedded third-party applications
b) Edge storage fail-over recording detection
b. Response to triggers shall include event actions:
1) Send notification, using email, HTTP, HTTPS, TCP and SNMP trap
2) Send images or video clips using email, FTP, SFTP, HTTP, HTTPS or network
share
3) Record to local storage and/or network attached storage
4) PTZ control functionality
5) Text overlay
c. The camera shall provide memory for pre- and post-alarm recordings.
11. Edge storage
a. The camera shall support continuous and event-controlled recording to local
storage and/or network attached storage.
b. The camera shall incorporate encryption functionality for the SD card.
c. The camera shall be able to detect and notify edge storage disruptions.
12. Protocol
a. The camera shall incorporate support for at least IPv4, IPv6 USGv6, HTTP,
HTTPSa, SSL/TLSa, QoS Layer 3 DiffServ, FTP, SFTP, CIFS/SMB, SMTP,
Bonjour, UPnP®, SNMP v1/v2c/v3 (MIB-II), DNS, DynDNS, NTP, RTSP, RTP,
TCP, UDP, IGMP, RTCP, ICMP, DHCP, ARP, SOCKS, SSH, LLDP, MQTT.
b. The SMTP implementation shall include support for SMTP authentication.
13. Text overlay
a. The camera shall:
1) Provide embedded on-screen text with support for date & time, and a customer-
specific text, camera name, of at least 45 ASCII characters.
2) Provide the possibility to choose different font sizes for embedded on-screen
text, and to use white or black text on at least four different backgrounds.
3) Provide the ability to manually set up and configure privacy masks to the
image.
4) Allow for the overlay of a graphical image, such as a logotype, into the image.
14. Security
a. The camera shall support the following:
1) Secure web browsing
a) The use of HTTPS and SSL/TLS, providing the ability to upload signed
certificates to encrypt and secure authentication and communication of
both administration data and video streams.
b) Restrict access to the built-in web server by usernames and passwords
at three different levels.
2) Certificate management
a) Provide centralized certificate management, with both pre-installed CA
certificates and the ability to upload additional CA certificates. The
certificates shall be signed by an organization providing digital trust
services.
3) Enhanced security features
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
58 of 67
a) The use of signed firmware validates the firmware’s integrity before
accepting to install it.
4) Authentication
a) IEEE 802.1X authentication.
b) Restrict access to pre-defined IP addresses, commonly known as IP
address filtering.
5) Brute force delay protection
15. API support
a. The camera shall be fully supported by an open and published API (Application
Programmers Interface), which shall provide necessary information for integration
of functionality into third-party applications.
b. The camera shall conform to ONVIF profile G as defined by the ONVIF
Organization.
c. The camera shall conform to ONVIF profile S as defined by the ONVIF
Organization.
16. Embedded applications
a. The camera shall provide a platform allowing the upload of third-party applications
into the camera.
17. Installation and maintenance
a. The camera shall be supplied with Windows-based management software which
allows the assignment of IP addresses, upgrade of firmware and backup of the cameras’ configuration.
b. The camera shall support the use of SNMP-based management tools according to
SNMP v1, 2c & 3 / MIB-II.
c. The camera shall allow updates of the software (firmware) over the network, using
FTP or HTTP.
d. The camera shall provide the ability to apply a rectangle of customer-defined
number of pixels to the image, which can be used as a pixel counter identifying the
size of objects in number of pixels.
18. Access log
a. The camera shall provide a log file, containing information about the 250 latest
connections and access attempts since the unit’s latest restart. The file shall
include information about the connecting IP addresses and the time of connecting.
b. The camera shall provide a connection list of all currently connected viewers. The
file shall include information about connecting IP address, time of connecting and
the type of stream accessed.
19. Camera diagnostics
a. The camera shall be equipped with LEDs, capable of providing visible status information. LEDs shall indicate the camera’s operational status and provide
information about power, communication with receiver, the network status and the
camera status.
b. The camera shall be monitored by a Watchdog functionality, which shall
automatically re-initiate processes or restart the unit if a malfunction is detected.
c. The camera shall send a notification when the unit has rebooted and all services
are initialized.
20. Hardware interfaces
a. Network interface
1) The camera shall be equipped with one 10BASE-T/100BASE-TX Ethernet-port
using a RJ45 connector and shall support auto negotiation of network speed
(100 MBit/s and 10 MBit/s) and transfer mode (full and half duplex).
b. Inputs/Outputs
1) The camera shall provide I/O connectivity via portcast technology with an
accessory audio and I/O interface device.
c. Power
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
59 of 67
1) The camera shall be equipped with a removable terminal block providing
connectivity for external power.
2) The camera shall be compatible with 2–wire converters and PoE-over-Coax
devices from the manufacturer.
21. Enclosure
a. The camera shall be manufactured with a IP66, IK10-rated polycarbonate hard-
coated dome with zinc and aluminum casing
22. Power
a. The camera shall provide power over Ethernet IEEE 802.3af/802.3at Type 1 Class
1
1) Max: 3.2 W
2) Typical: 2.8 W
23. Environmental
a. The camera shall:
1) Operate in a temperature range of -15 C to +50 C (+5 F to 122 F)
2) Operate in a maximum temperature (intermittent) of 55 °C (131 °F)
3) Operate in a humidity range of 15–85% RH (non-condensing).
2.16 ROOF MOUNTED CAMERA
A. The Security Subcontractor shall provide a 360-Degree pole mounted camera on rooftop
locations as shown on the contract documents.
B. The Security Subcontractor shall provide self-ballasted non roof penetrating roof mounted antenna stand with 4” pipe.
1. The Security Subcontractor to provide required height for line of sight.
2. Stand shall be hot dip galvanized
3. The Security Subcontractor to provide roof mats and CMU block ballasting per
manufacturers requirements.
4. Stands shall be part number ROHM BRM6, OR EQUAL.
2.17 FIBER OPTIC MEDIA CONVERTER
A. Exterior pole-mounted cameras require Fiber Optic data transmission (see contract drawings)
with a media converter. Provide an Ethernet transceiver system that transmits bi-directional 10
or 100Mps data over multimode or single mode fiber connections. Provide Comnet Model
CNFE2MC-POEM mini media converter at the camera location, and CNFE2FE2MC (rack-
mounted) in the equipment rooms, OR EQUAL.
1. The Ethernet data transceiver system shall consist of a media converter and an SFP
module. The module shall support the transmission of 10 or 100 Mbps employing single
mode or multimode optical fiber.
2. The Security Subcontractor shall select and provide SFP modules compatible with the
proposed fiber optic cable.
3. The module shall support the Ethernet data interface and be IEEE 802.3 compliant.
4. The module shall be a PSE device that is IEEE 802.3at compliant, capable of supplying
up to 25 Watts of power at 48 VDC and continuous current up to 600 mA at the RJ-45
Ethernet port.
5. The unit is set to auto-negotiate data rates and can be used for half duplex or full duplex
transmission.
6. The modules shall provide automatic re-settable solid-state current limiters and
independent voltage regulators on each module to reduce the chance of a single point
failure of the system.
7. The module shall have an MTBF of >100,000 hours and operate in an environment of –
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
60 of 67
40˚ C to +75˚ C and relative humidity between 0% to 95% (non-condensing).
8. The module shall be UL and ULC listed and CE marked. The circuit board shall be UL
94 flame rated and meet all PCI standards.
9. The module shall have a lifetime warranty to reduce system life cycle cost in an event of
a module failure.
10. 10/100/ Mbps Ethernet
11. 10/100 Base-TX electrical port
12. 100 Base-FX optical port
13. Device side converter shall provide POE power output to the camera.
14. Provide independent power supply at the camera, for power injection at the converter.
15. Provide Comnet Model C1 card cage with power supply compatible with the media
converter modules, or equal, with required accessories to provide a complete and
working system.
2.18 ELEVATOR CAMERA COAX CONVERTER
A. PoE++ over Coax Adapter Kit shall be AXIS T8640 Series. AXIS T8640 Series Kit offers a
complete kit containing one AXIS T8641 PoE++ Over Coax Base (referred to as base) and one
AXIS T8642 PoE++ over Coax Device (referred to as device.
1. The PoE++ over coax adapter kit shall meet or exceed the following design
specifications:
a. The unit shall be able to provide PoE and PoE++ over 75ohm coaxial cabling and
support auto-detection and auto-cutout of connected device units.
b. The unit shall provide full functionality, including 100/100Mbps symmetrical data
for up to 500 m / 1600 ft.
c. The unit shall support Plug-and-Play installation and shall automatically detect
PoE++ and High PoE++-enabled devices and supplies in-line power.
d. The unit shall be designed for wall and rack mounting as well as DIN Rail
mounting.
e. The base shall be equipped with LED’s indicating network link & activity, coax link,
PoE++ over coax, PoE++ to camera, and available power.
f. Hardware interfaces
1) Network interface
(a) The unit shall be equipped with one BNC 75 Ohm coaxial cable and with
shielded RJ45, EIA 568A and 568B connectors.
g. Enclosure
1) The unit shall be manufactured with a plastic casing.
h. Power
1) Input power:
(a) The unit shall have PoE++ (IEEE 802.3at Class 4 powered device) or DC
(44–57 V) Class 2 isolated power supply (max. 0.7 amps)
2) Output power
(a) The base shall have PoE++ over Coax with safe auto-detection and auto-
cutout.
(b) The device shall be PoE++ (IEEE 802.3at Type 2 Class 4) enabled to
detected devices up to 25.5 W
i. Environmental
1) The unit shall:
(a) Operate in a temperature range of -10 C to 50 C (14 F to 122 F).
(b) Operate in a humidity range of max 95% RH (non-condensing).
2.19 ETHERNET PoE++ (POWER OVER ETHERNET) EXTENDERS
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
61 of 67
A. Provide Axis Model T8129, OR EQUAL, PoE Extender in line with ethernet data cable where
required by distance (greater than 330 Feet) from switch termination points in interior spaces.
1. IEEE 802.3af and 802.3at compliant
2. Compatible with proposed cameras.
3. Supports distances up to 400 meters, without additional power supplies.
4. 10/100 Mbps half/full duplex.
5. Shielded RJ45, EIA 568A and 568B.
6. Plug-and-play; automatically forwards in-line power to PoE and High PoE-enabled
devices.
B. Interior IP/POE Cameras (with IR Illumination)
1. Fixed Minidome and mounting hardware
a. Cameras shall be AXIS P3225-LVE, Arecont, Panasonic OR EQUAL Network
Camera compatible with the VMS, high quality 1/4” progressive scan megapixel
sensor, be equipped with a high quality vari-focal DC-iris, IR Lens to provide
pictures down to 0.9 lux.
2. Mounting Hardware as needed
a. 180-degree cameras with mounting hardware
1) Axis P3807-PVE, Arecont, Panasonic OR EQUAL
b. 360-degree cameras with mounting hardware
1) Axis P3707-PVE, Arecont, Panasonic OR EQUAL
C. Exterior IP/POE Cameras (with IR Illumination)
1. Fixed Minidome and mounting hardware
a. Axis P3225-LVE, Arecont, Panasonic OR EQUAL
2. 180-degree cameras with mounting hardware
a. Axis P3807-LVE, Arecont, Panasonic OR EQUAL
3. 360-degree cameras with mounting hardware
a. Axis P3707-LVE OR EQUAL
4. Media conversion modules/Fiber Converters for pole mounted Cameras.
a. Omnitron
2.20 MOUNTING HARDWARE
A. The Security Subcontractor shall provide all mounting accessories, back plates, parapets, pole
mounts, wall mounts, corner mounts, ceiling mounts, etc. for all cameras as needed. All
cameras require Pendant Kits if not ceiling mounted. Cameras and appropriate mounting
hardware for application OR EQUAL:
1. Axis Camera Model P3245-LVE Mounting Hardware (1080P)
a. Pendant Mount Kit – Axis T94N01D
b. Wall Mount with 1.5” NPS – Axis T91D61
c. Pole Mount – Axis T91B67
d. Telescopic Ceiling Mount – Axis T91B50
e. Ceiling Mount as is
2. Axis Camera Model P3807-PVE Mounting Hardware (180-degree)
a. Pendant Mount Kit – Axis T94V02D
b. Wall Mount with 1.5” NPS – Axis T91D61
c. Pole Mount – Axis T91B67
d. Telescopic Ceiling Mount – Axis T91B50
3. Axis Camera P3717-PLE (360-degree)
a. Ceiling Mount – Axis T91B63
b. Pendant Mount Kit – Axis T94N01D
c. Wall Mount with 1.5” NPS – Axis T91D61
d. Pole Mount – Axis T91B67
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
62 of 67
e. Telescopic Ceiling Mount – Axis T91B50
4. Axis Camera P3228-LVE Mounting Hardware (4K)
a. Ceiling Mount – Axis T91B63
b. Pendant Mount Kit – Axis T94K01D
c. Wall Mount with 1.5” NPS – Axis T91D61
d. Pole Mount – Axis T91B67
e. Telescopic Ceiling Mount – Axis T91B53
5. Axis Camera Model P3227-LVE Mounting Hardware (5MP)
a. Ceiling Mount – Axis T91B63
b. Pendant Mount Kit – Axis T94T01D
c. Wall Mount with 1.5” NPS – Axis T91D61
d. Pole Mount – Axis T91B67
e. Telescopic Ceiling Mount – Axis T91B50
6. Axis Camera Model Q6075-E Mounting Hardware (PTZ)
a. Ceiling Mount – as is
b. Pendant Mount Kit – Axis T94A01D
c. Wall Mount with 1.5” NPS – Axis T91G61
d. Pole Mount – Axis T91B57
e. Telescopic Ceiling Mount – Axis T91B50
2.21 PATCH PANELS
A. The Security Subcontractor shall provide the following Patch Panels as a part of this contract:
1. Tripp Lite N252-024 (24-port) OR EQUAL
a. Features:
1) Cat6
2) UL approved
3) Ports clearly numbered both on front and back
4) Labels on front enable each port to be named
5) Color coded label on back offers both EIA/TIA 568A & 568B wiring
6) Metal frame
7) EIA/TIA 2/32 spacing
8) Rack mountable on a 19 rack (1U of space)
b. Overview:
1) UPC Code: 037332120038
2) Technology: Cat5/5e; Cat6
c. Physical:
1) Dimensions (hwd/cm): 5.59 x 52.07 x 10.80
2) Dimensions (hwd/in.): 2.20 x 20.50 x 4.25
3) Weight (kg): 0.59
4) Weight (lbs.): 1.30
d. Connections:
1) Ports: 24
2) Side A – Connector 1: 110 IDC
3) Side B – Connector 1: RJ45 (FEMALE)
4) PoE Type: Type 2 PoE+ (30W, IEEE 802.3at)
e. Warranty:
1) Product Warranty Period (Worldwide): Lifetime limited warranty
2. Tripp Lite N252-048 (48-port) OR EQUAL
a. Features:
1) Cat6
2) UL approved
3) Ports clearly numbered both on front and back
4) Labels on front enable each port to be named
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
63 of 67
5) Color coded label on back offers both EIA/TIA 568A & 568B wiring
6) Metal frame
7) EIA/TIA 2/32 spacing
8) Rack mountable on a 19" rack ( 2U High )
b. Overview:
1) UPC Code: 037332120045
2) Technology: Cat5/5e; Cat6
c. Physical:
1) Dimensions (hwd/cm): 7.11 x 50.04 x 11.94
2) Dimensions (hwd/in.): 2.80 x 19.70 x 4.70
3) Weight (kg): 1.16
4) Weight (lbs.): 2.56
d. Connections:
1) Ports: 48
2) Side A – Connector 1: 110 IDC
3) Side B – Connector 1: RJ45 (FEMALE)
4) PoE Type: Type 2 PoE+ (30W, IEEE 802.3at)
e. Warranty:
1) Product Warrant Period (Worldwide): Lifetime limited warranty
2.22 RACKS
A. Middle Atlantic SNE Series OR EQUAL
1. The Security Subcontractor shall provide racks with the following features as a part of
this contract:
a. Must be fully welded construction that provides the following weight capacities:
1) UL Listed load capacity – 3,000 lbs.
2) Caster load capacity – 1,600 lbs.
3) Seismic certified capacity – 1,060 lbs.
b. Must be configured for front to rear, or front to chimney passive cooling depending
on model.
c. Must ship fully configured, and includes:
1) 70% open area vented front door
2) Solid or split 70% open area rear doors
3) Chimney (select models only)
4) Pair of split flush mount locking side panels
5) Set of Level Lock mounting brackets
6) Casters
7) Leveling feet
d. Must be available in 24”, 27.6” and 30” widths, and 36”, 42” and 48” overall depths
e. Must include 2 pairs of cage nut fully adjustable rackrail and 6MM mounting
hardware
f. Must have doors that accommodate industry standard electronic door locks
g. EIA compliant 19” gangable digital security network enclosure must be Middle
Atlantic Products model# SNE D- -P_
1) Overall dimensions shall be ”H x ”W x ”D
2) Useable height shall be rackspaces, useable depth shall be ”
h. Must come equipped with two pairs of fully adjustable steel rack rail with tapped
10-32 or cage-nut mounting in universal EIA spacing, black e-coat finish and
numbered rack spaces.
i. Must have pre-threaded 5/16”-18 ganging holes.
j. Must be capable of ganging while fully loaded, using bolts only.
k. Must have marked rack rail depth indicators.
l. Must include __(cable fingers, duct, cable management.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
64 of 67
m. Must be finished in an environmentally friendly, durable black powder coat.
n. SNE Series enclosures must satisfy the 2007, 2010 & 2013 CBC; 2006, 2009 &
2012 IBC; ASCE 7-05 (2005 Edition) & ASCE 7-10 (2010 Edition) for use in areas
of high seismicity, Seismic Use Group III, Zone 4 or Seismic Design Category (SDC) “D” with lateral force requirements for protecting 1,060 lbs. of essential
equipment in locations with the highest level of seismicity and top floor or rooftop
installations with an Importance factor (Ip) of 1.5 when used with SNE-Z4 seismic
floor anchor bracket.
o. Must be UL Listed in the US and Canada to the UL-2416 (NWIN) category.
p. Must be GREENGUARD Gold Certified.
q. SNE enclosure must be RoHS EU Directive 2011/65/EU and CSA C22.2 No.
60950-1 compliant.
r. Must be manufactured by an ISO 9001 and ISO 14001 registered company.
s. SNE enclosure must be warrantied to be free from defects in material or
workmanship under normal use and conditions for the lifetime of the rack.
2. Options:
a. Split lift-off cable chase shall be 4.4” wide and mount in-between enclosures,
model # SNE-CC-__LT
b. Cable chase shall be model # SNE-__-CC12-45__, and shall be 12” wide x __” deep x 83.33” high
c. Front air dam/zero-U panel mount shall be model # SNE-__-FAD-PM-__
d. Bracket for top cable pass-through enclosure to enclosure shall provide the ability
to pass cables from enclosure to enclosure when ganged together, and shall be
model number SNE-TCB-__ (36, 42)
e. 6” wide wire type vertical lace shall be model number LACE-WB6-__ (42, 45
f. Seismic Zone-4 and Seismic Use Group III compliancy floor anchor kit shall be
model # SNE-Z4
g. 6” fans shall be FAN-6
h. 6” fan guards shall be GUARD-6
B. Ventilated Front Door Model Number DVFD-44 OR EQUAL
C. Ventilated Rear Door Model Number DVRD-44 OR EQUAL
D. Solid Side Panels Model Number SPN-44-312
E. Leveling Feet Model Number LF
F. Rack Rail Model Number DRK19-RR44
G. 16-Outlet, 20A Power Strip Model Number PDT-2X820
H. Cable Duct Model Number DRK-44DUCT
I. Lace Strip Model Number LACE-44-O-A
J. Utility Rack Shelf Model Number U1
K. Component Cooler, 50 CFM Model Number COMP-COOL50
L. Adjustable Rack Shelf, 3U Model Number AS3-22
M. High-Definition Rack Console/KVM Model Number RM-KB-LCD17HD
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
65 of 67
2.23 SOFTWARE LISCENSING
A. The Security Subcontractor shall provide the following Licensing as part of this contract:
1. Genetec Enterprise Camera License OR EQUAL
2. Remote Server/Client Licenses OR EQUAL
3. Genetec Access Control Integration License Model Number EL-ACI-GENETEC OR
EQUAL
4. Genetec Camera Licenses as required per camera and type Model Number ADV-CAM-
E-1Y OR EQUAL
5. Genetec Mobile Device Server License OR EQUAL
6. Active Directory Integration License OR EQUAL
7. Genetec Enterprise Plan Manager License OR EQUAL
8. Intrusion Detection Integration Software Model Number GSC-AP-BASE and GSC-1AP-
BOSCH OR EQUAL
9. AED/Emergency Phone License for Video Recording at Tower Phones Model Number
ADV-CAM-E-1Y OR EQUAL.
2.24 INFRASTRUCTURE AND CONNECTIVITY
A. The video camera and processing components shall utilize a combination of standard copper
cable, fiber optic cable, IP or wireless transmission schemes, depending on individual site
location conditions as shown on the contract documents.
B. The POE++ wired network cameras, media converters, network video appliances, and Client
Workstations shall reside on the Dennis Yarmouth Intermediate School’s local area network
(LAN) or network segment. Recording, live viewing, switching, long-term storage, reviewing,
and configuration shall be implemented over this infrastructure.
C. The Security Subcontractor shall coordinate LAN/WAN requirements the Owner, the Architect
and the Security Consultant.
PART 3 - EXECUTION
3.01 GENERAL
A. In accordance with Section 28 0000, Security System General Requirements.
3.02 SYSTEM CONFIGURATION
A. Camera recording and display configurations shall be arranged via a combination of the Video
Server, Network Video Recorders, Video Monitoring Workstations, and LAN/Wireless LAN
network.
B. The Security Subcontractor shall coordinate with the Owner to determine the required pre-
programmed surveillance and event-initiated configurations.
1. The Security Subcontractor shall program and configure the VMS software as
necessary to establish a single, integrated video system enterprise serving School
District specified personnel, and emergency response personnel as assigned by the
School Superintendent or Authority.
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
66 of 67
3.03 EQUIPMENT, RACK AND CONSOLE INSTALLATION
A. In accordance with Section 28 0000, Security System General Requirements.
3.04 GROUNDING PROCEDURES
A. Provide grounding of all systems and equipment in accordance with DIVISION 26
ELECTRICAL Requirements, and state and local Electrical Code.
3.05 WIRE AND CABLE INSTALLATION PRACTICES
A. Provide wire and cable installation in accordance with Section 28 0000, Security System
General Requirements, and as shown on the contract drawings.
3.06 DATABASE PREPARATION, CHECKING, AND ACTIVATION
A. Coordinate with the Architect and the Owner’s IT Department for Database information and
Active Directory specifics.
B. Provide database preparation, checking and activation for systems and equipment in
accordance with the manufacturers recommendations for AD Integration.
3.07 START-UP RESPONSIBILITY
A. Provide start-up services for all systems and equipment in accordance with Security System
General Requirements, Section 28 0000.
3.08 BURN-IN PERIOD
A. Schedule a 30-day burn-in performance period to demonstrate the stability of the system.
3.09 SYSTEM PERFORMANCE TESTING AND ADJUSTING PROCEDURES
A. Provide performance testing, burn-in, and adjusting of systems and equipment.
B. VMS Performance Testing
1. Demonstrate field of view on each camera.
2. Demonstrate acceptable picture quality on each camera.
3. Demonstrate identical picture quality on recorded video
4. Demonstrate acceptable picture quality on each video monitoring workstation, and
display devices accessible over the Wireless LAN.
5. Demonstrate switching, recording and playback functions for the video server, and
digital video recorders.
6. Demonstrate automatic event-triggered sequences.
3.10 FINAL PROCEDURES
Dennis Yarmouth Intermediate Middle School January 19, 2021
Dennis Yarmouth Regional School District 100% Construction Documents
Perkins Eastman DPC, project #71011 Addendum No. 3 February 19, 2021
28 2000 Electronic Video Management Systems
67 of 67
A. Perform final procedures in accordance with Section 28 0000, Electronic Security System
General Requirements.
END OF SECTION 28 2000
(THIS PAGE IS BLANK)