item 683.9301 03 m – camera assembly · 2010. 8. 4. · item 683.9301 03 m – camera assembly...

ITEM 683.9301 03 M – CAMERA ASSEMBLY

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DESCRIPTION: This work shall consist of furnishing and installing an integrated Dome Camera Assembly at the locations indicated elsewhere in the contract documents. The Camera Assembly shall be furnishing and installation of a COHU I-dome camera 3925-5200-PEND modified in accordance with ER8939B and its accessories as specified in this specification. The Camera Assembly shall contain all of the components described in the material specification and shall be configured as indicated on the plan sheets. MATERIALS The camera assembly shall be of the dome type and shall contain the Camera, Lens, and Pan/Tilt/Zoom (PTZ) motor internal to the dome. External connections to the dome shall include a standard NTSC video feed, RS-422 data feed for control, and 120 VAC power.

The assembly shall include "pre-set" capability, which shall allow the camera to be automatically commanded to a predefined position via the camera control software supplied under this specification. The Contractor shall provide a totally operational assembly with all cabling and terminations matched to support the selected components. The Camera Assembly shall consist of the following major components: (a) CCTV Camera and Lens The CCTV camera and lens shall comply with the following specifications:

Image Sensor: 1/4” Sony Ex-View HAD Iris: Automatic with Manual Override Focus: Auto focus with Manuel Override Pixels: 724(H) X 494(V) (358,000 pixels minimum) Resolution: Minimum of 470 TV Lines (NTSC); 520 TV Lines (B/W) Illumination: 1.0 lux @ 1/60 second (color day), 0.1 lux @ ¼ sec. (color day), 0.01 lux

@ ¼ second (B/W night) Image: Electronic Image Stabilization Maximum Aperture: F1.4 (wide) to f/4.2 (tele) Zoom: 35 x optical zoom or better Temperature: -34°C to 74°C or better Humidity Range: 0 to 100% minimum Power: 104 Watts (maximum) for heater/blower and PTZ utilizing 120 VAC

source Pan (Horizontal): 360º Endless

Manual: 80°/sec (minimum for large movements) Preset: 240°/sec (minimum)

Tilt (Vertical): 0-90° Manual: 40°/sec (minimum for large movements) Preset: 80°/sec (minimum)

Pre-Sets: 64 minimum


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Color: Camera shall auto switch between full RGB color and B/W as available lighting levels change, auto or manual

Privacy Zones: 8 user-programmable privacy zones, or blocks (minimum)

The control receiver/driver shall accept commands through a half-duplex RS-422 interface port, operating at 9600 baud. The unit shall only respond to commands directed to its address and shall provide conformation feedback via that port.

A documentation package shall be provided which fully describes the communication protocol implemented on the receiver/driver.

A variable speed electronic shutter shall be provided which shall be adjustable from 1/100 to 1/10,000 in a minimum of seven steps.

An Automatic White Balance Control mechanism shall be provided to adjust the white balance dynamically in response to the varying light conditions encountered in the outside environments. In this regard, pictures with an appropriate color balance shall be obtainable in all conditions. (b) Environmental Enclosure/Housing The environmental enclosure shall be designed to protect the integrated dome camera assembly from the outdoor environment, which the assembly shall be designed to function in. If the option exists in the standard product line of the manufacturer, the assembly shall be supplied with an integral sun shield. The enclosure shall be fully water and weather proof with a rating of not less than NEMA 4. The enclosure shall be a pressurized enclosure.

The environmental housing shall be constructed of UV stable ABS plastic, aluminum, and acrylic. The internal dome is to be constructed of distortion free acrylic or equivalent material. The environmental housing shall include a camera-mounting bracket. In addition, the environmental housing shall include a heater, blower, and power surge protector. An integral fitting compatible with a standard 38.1 mm NPS pipe suitable for mounting within a camera lowering device junction box shall also be provided. The enclosure shall be constructed so as to minimize the effort required to remove the camera assembly for maintenance.

The enclosure shall be equipped with a heater controlled by a thermostat. Temperature settings shall be programmable to disengage when temperatures exceeds between 20°C and 45°C using maintenance setup software, via the RS-422/RS-232 serial data port of the camera dome system. The heater shall minimize internal fogging and external icing of the faceplate when the assembly is operated in cold weather. In addition, as part of the enclosure, a fan shall be provided to ensure effective heating and to provide condensation protection.

The enclosure shall be equipped with a hermetically sealed weatherproof connector, located near the top for external interface with power, video, and control feeds.

(c) Environmental Conditions Ambient Temperature Limits (Operating): -34°C to +74°C (-30°F to 165°F)


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Ambient Temperature Limits (Storage): - 45°C to +85°C (-50°F to 185°F)

Humidity: Up to 100% relative humidity (per MIL-E-5400T, paragraph 3.2.24.4) IP 67 Rating

Other: Withstands exposure to sand, dust, fungus, and salt atmosphere per MIL-E-5400T, paragraph 3.2.24.7, 3.2.24.8, and 3.2.24.9

Shock: Up to 5g’s, 11ms, in any axis under non-operating conditions, MIL-E-5400T, paragraph 3.2.24.6

Vibration: Sine wave oscillations from 5 to 60 Hz with a total excursion of 0.082 inch and Random oscillations from 60 to 1000 Hz, 5 G’s RMS (0.027g2/Hz) without damage

(d) Mounting Configuration: The mounting configuration and connection to the camera lowering device’s camera junction box shall be as shown on the CCTV detail plans. Wind load rating shall be designed for sustained gusts up to 128.72 km/hr. Load rating shall be designed for a support of up to 22.68 kg. Mounting flange thread shall be standard 38.1 mm NPT pipe. The CCTV shall be mounted in a manner so that it is protected from external lighting. The mounting configuration at the building location includes the furnishing and installing of the attachment hardware onto the building wall. (e) 120 VAC to 24 VAC Outdoor Power Supply A 120 VAC source or 24 VAC power supply shall be provided. Input line voltage shall be rated for 120 volts. Transformer rating shall not be less than 100 VA. If a 24 VAC power supply is utilized, it shall be housed within the CCTV field cabinet. The transformer enclosure shall have a rating of not less than NEMA 4. 120 VAC power is to be fused with a 1.25 amp fuse. 24 VAC power is to be fused with a 4-amp fuse. A power line surge protector shall be installed in each unit between input power circuit and ground. The Contractor shall provide surge protection for all external cabling entering the dome camera environmental enclosure. The surge protectors shall be grounded in accordance with the manufacturer's recommendation.

The AC power line surge protector shall be installed between the load side of the input power circuit breaker or fuse and ground. The protector shall have the following characteristics:

a. Working Voltage - The unit shall be rated for operation on AC power lines with a voltage rating of 130 volts RMS with 184 volts peak for nominal 120 VAC service.

b. Surge Voltage - The unit shall limit the surge voltage of the equipment to 680 volts while conducting a peak surge current of 20,000 amperes. Assume that the surge current waveform is an unsymmetrical triangular wave (designated 8x20 microseconds) that requires 8 microseconds to reach peak value and at 20 microseconds will have decayed to half the peak value with automated recovery.


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c. Energy Rating - The unit shall be capable of dissipating at least 50 joules of surge energy without damage to itself. The unit shall have a dissipation rating greater than 10 watts.

d. The Surge protector shall include all ancillary connections and module necessary for its proper installation and operation.

All ungrounded conductors between the CCTV field cabinet and the dome CCTV environmental enclosure shall be surge protected.

Input connectors shall be of the compression type. Output connectors shall be screw-type barrier strips.

(f) Connecting Cables Composite cabling that includes power conductors, coaxial video feed, and RS-422 control wires shall be provided to connect the integrated dome to the equipment cabinet designated on the plans to which the camera shall be powered from. This cable shall be a minimum of 75 m in length in order to provide a sufficient length for poles up to 30.5 m in length. This cable shall be a minimum of 50 m in length in order to provide a sufficient length for poles up to 23 m in length. Compatible connectors shall be supplied to mate with the integrated dome and field cabinet equipment. In addition, the other end of the cable, to be terminated in the equipment cabinet, shall be terminated with an RS-422 connector compatible with the camera interface panel within the CCTV field cabinet. Conversion from RS-422 to RS-232 is performed by a converter within the field cabinet. From the camera interface panel an RS-232 cable shall extend to the video encoder/decoder supplied under other bid items. Separate RS-422 serial cable, coaxial video feed, and power cables to the dome may be acceptable if approved by the Engineer. (g) Diagnostic Software PC based diagnostic software shall be supplied which shall allow all functions, command able and monitor able via the control/receiver driver, to be viewed or exercised. A cable shall be provided which shall allow a standard 9-PIN PC RS-232 port to be connected, via an RS-232 to RS-485 interface, to the command port of the integrated dome. A copy of this PC diagnostic shall be supplied with every assembly. The program shall operate under Windows 2000 and Windows XP.

(h) Camera Control Software

Camera assembly control software, compatible with existing New York State DOT camera control software, shall be supplied. The camera and assembly shall accept and respond correctly to commands issued by the software program and provide all responses anticipated by the software. The camera assembly software shall support the NTCIP specifications as defined in the following paragraphs.


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(i) NTCIP Requirements This portion of the specification defines the detailed NTCIP requirements for the CCTV Camera Controller.

DEFINITIONS

The following terms shall apply within the scope of this procurement specification: • CCTV Camera Controller - A CCTV Camera Controller includes the camera control

receiver, cabinet, camera, lens, and pan/tilt assembly. • Full, Standardized Object Range – Support for, and proper implementation of, all valid

values of an object as defined within the object's OBJECT-TYPE macro in the subject NTCIP standard; this is further defined in two distinct sub-requirements. (1) If the ACCESS of the object is read-write, a Management System shall be able to set the object to any valid value as defined by the SYNTAX and DESCRIPTION fields (except that the value of 'other' need not be supported when such a value is defined) and the indicated functionality shall be provided. (2) The value indicated by the object (e.g., in response to a ‘get’), regardless of the ACCESS, shall reflect the current condition per the rules specified in the object’s DESCRIPTION.

• Management System – A management system used to control a CCTV Camera. This includes any laptop software used for field control as well as the central control software.

• NTCIP Component – Either a CCTV Camera Controller or a Management System. • NTCIP System – A CCTV Camera Controller Management System plus the various

CCTV Camera Controllers controlled by the Management System. • Response Time – The time to prepare and begin transmission of a complete response

containing the requested Application Layer information. This is measured as the time from receipt of the closing flag of the request to the transmission of the opening flag of the response when the device has immediate access to transmit.

ACRONYMS

• IP – Internet Protocol • NTCIP – National Transportation Communications for ITS Protocol • PMPP – Point-to-Multi-Point Protocol • PPP – Point-to-Point Protocol • UDP – User Datagram Protocol

REFERENCES This specification references several standards through their NTCIP designated names. The following list provides the full reference to the current version of each of these standards.

Each NTCIP Component covered by these project specifications shall implement the most recent version of the published standard that is available as of the contract advertisement


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date, including any Amendments. It is the responsibility of the Contractor/Vendor to monitor NTCIP activities to discover any more recent documents.

Abbreviated Number

Full Number Title Known Amendments

NTCIP 1201 NTCIP 1201:1996 v01.10, includes Amendment 1 v07

Global Object Definitions Amendment #1 dated November 2, 1998.

NTCIP 1205 NTCIP 1205:2001 v01.08, (December 2001)

Object Definitions for CCTV Camera Control

NTCIP 2101 NTCIP 2101:2001 PMPP over RS – 232 Subnetwork Profile (SP-PMPP)

NTCIP 2103 NTCIP 2103:2005 v02.06

PPP over RS – 232 Subnetwork Profile (SP-PPP)

NTCIP 2104 NTCIP 2104:2003 v01.11(September 2005 edition)

Ethernet Subnetwork Profile (SP-Ethernet)

NTCIP 2201 NTCIP 2201:2003 v01.15 (September 2005 edition)

Transportation Transport Profile

NTCIP 2201 NTCIP 2202:2001 v01.05

Internet (TCP/IP and UDP/IP) Transport Profile

NTCIP 2301 NTCIP 2301:2001 v01.08

Simple Transportation Management Framework (STMF) Application Profile

PROTOCOL IMPLEMENTATION CONFORMANCE SPECIFICATION This specification uses a Protocol Performance List table in order to identify the required features for the CCTV Camera Controller for this project. The CCTV camera controller shall support all of the selected ‘User Needs’ and ‘Functional Requirements’ in the table. A ‘User Need’ or ‘Functional Requirement’ shall be considered selected based on the information provided in the ‘Projects Requirements’ column of the table. A ‘No’ selection in this column shall indicate that the item is not required, but may be provided, unless otherwise specified. For each selected requirement the corresponding row(s) of the Requirements Traceability Matrix shall also be required.

Protocol Requirements List (PRL)

ID User Need ID Functional Requirements Status Project Requiremen

ts


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ts U1 Manage CCTV M Yes U1.1 Identify Device U1:M Yes R1.1.1 A CCTV camera controller

shall provide the capability to remotely determine the camera’s identity. The following data shall be provided for each separate module:

• Make, model, and version of the module

• An indication of the type of information the module supports

• Type of module, i.e., software, hardware

U1.1:M

Yes

U1.2 Determine Range

of Motion U1:M Yes

R1.2.1 A CCTV camera shall indicate how many preset positions can be stored within the device.

U1.2:M

Yes, number of presets needed : 64 (255 max)

R1.2.2 A CCTV camera shall indicate the left and right limits of the panning motion of the camera.

U1.2:M

Yes

R1.2.3 A CCTV camera shall provide a reference point from which panning measurements are based from.

R1.2.4 A CCTV camera shall provide a measurement of the difference between true North and the panning reference point. This measurement shall be configurable by the user.


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ts R1.2.5 A CCTV camera shall provide

up and down limits of the tilting motion of the camera.

R1.2.6 A CCTV camera shall provide the angle limits of the zoom motion of the camera.

R1.2.7 A CCTV camera shall provide the limits of the focus motion of the camera.

R1.2.8 A CCTV camera shall provide the limits of the iris motion of the camera.

R1.2.9 A CCTV camera shall provide the minimum step angle for the pan movement of the camera.

R1.2.10

A CCTV camera shall provide the minimum step angle for the tilt movement of the camera.

U1.3 Manage Motion

Timeout U1:M Yes

R1.3.1 A CCTV camera shall provide configuration for timeout of movement for Pan

U1.3:M

Yes

R1.3.2 A CCTV camera shall provide configuration for timeout of movement for Tilt

R1.3.3 A CCTV camera shall provide configuration for timeout of movement for Zoom

R1.3.4 A CCTV camera shall provide configuration for timeout of movement for Focus

R1.3.5 A CCTV camera shall provide configuration for timeout of movement for Iris

U1.4 Manage Labels U1:M Yes


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ts R1.4.1 A CCTV camera shall allow

the user to define labels that will appear on the video image when the camera is aimed at certain locations.

U1.4:M

Yes

R1.4.2 The labeling system shall indicate the maximum number of labels that the device supports.

U1.4:M

Yes, Number of labels needed:__8___ (255 labels maximum)

R1.4.3 Each label shall be associated with the following information: • index for referencing

labels • text string 255

characters in length • label height • label color (16 color) • label starting row • label starting column • enable/disable flag

R1.4.4 A CCTV camera shall provide a location parameter that references a label index.

R1.4.5 A CCTV camera shall provide a flag to enable/disable all labels.

U1.5 Determine

Presence of Optional Features

M Yes


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ts R1.5.1 A CCTV camera shall indicate

whether it allows a management system to control camera power.

U1.5:M

Yes

R1.5.2 A CCTV camera shall indicate whether it allows a management system to control heater power.

R1.5.3 A CCTV camera shall indicate whether it allows a management system to control a wiper.

R1.5.4 A CCTV camera shall indicate whether it allows a management system to control a washer.

R1.5.5 A CCTV camera shall indicate whether it allows a management system to control a blower.

R1.5.6 A CCTV camera shall indicate whether it allows a management system to control auto iris

R1.5.7 A CCTV camera shall indicate whether it allows a management system to control auto focus

U2 Manage

Extended CCTV Functions

O Yes

U2.1 Manage Control Features

U2:0.1 Yes

U2.1.1

Control Camera Power

U2.1:0.2

No


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ts R2.1.1

.1 The CCTV camera controller shall allow a management station to turn the camera power off or on.

U2.1.1:M

NA

R2.1.1.2

The CCTV camera controller shall allow a management station monitor the status of the camera power.

U2.1.2

Control Heater U2.1:0.2

Yes

R2.1.2.1

The CCTV camera controller shall allow a management station to turn the power to a heater off or on.

U2.1.2:M

Yes

R2.1.2.2

The CCTV camera controller shall allow a management station to monitor the heater power.

U2.1.3

Control Wiper U2.1:0.2

No

R2.1.3.1

The CCTV camera controller shall allow a management station to turn the camera wiper off or on.

U2.1.3:M

NA

R2.1.3.2

The CCTV camera controller shall allow a management station to monitor the wiper.

U2.1.4

Control Washer U2.1:0.2

No

R2.1.4.1

The CCTV camera controller shall allow a management station to turn the camera washer off or on.

U2.1.4:M

NA

R2.1.4.2

The CCTV camera controller shall allow a management station to monitor the camera washer.

U2.1.5

Control Blower U2.1:M

Yes


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ts R2.1.5

.1 The CCTV camera controller shall allow a management station to turn the camera blower off or on.

U2.1.5:M

Yes

R2.1.5.2

The CCTV camera controller shall allow a management station to monitor the blower.

U2.1.6

Control Camera Components

U2.1:0.2

No

R2.1.6.1

The CCTV camera controller shall allow a management station to turn the camera components off or on.

U2.1.6:M

NA

U2.1.7

Control Auto Iris U2.1:0.2

Yes

R2.1.7.1

The CCTV camera controller shall allow a management station to turn the auto iris off or on.

U2.1.7:M

Yes

R2.1.7.2

The CCTV camera controller shall allow a management station to monitor the auto iris.

U2.1.8

Control Auto Focus

U2.1:0.2

Yes

R2.1.8.1

The CCTV camera controller shall allow a management station to turn the auto focus off or on.

U2.1.8:M

Yes

R2.1.8.2

The CCTV camera controller shall allow a management station to monitor the auto focus.

U2.2 Manage Alarms U2:0.1 Yes R2.2.1 The CCTV camera shall

provide an alarm for an open cabinet.

U2.2:0.3

Yes


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ts R2.2.2 The CCTV camera shall

provide an alarm for an open enclosure.

U2.2:0.3

Yes

R2.2.3 The CCTV camera shall provide an alarm for video loss.

U2.2:0.3

Yes

R2.2.4 The CCTV camera shall provide an alarm for exceeding predefined temperature limits.

U2.2:0.3

Yes

R2.2.5 The CCTV camera shall provide an alarm for exceeding predefined pressure limits.

U2.2:0.3

Yes

R2.2.6 The CCTV camera shall provide an alarm for to indicate if the device is being managed locally

U2.2:0.3

Yes

R2.2.7 The CCTV camera shall provide an alarm if the washer fluid volume exceeds certain predefined limits.

U2.2:0.3

No

R2.2.8 The CCTV camera shall allow a user to alter the threshold by which the following alarms are triggered:

• Temperature • Pressure

U2.2:0.3

Yes

R2.2.9 The CCTV camera shall provide the current reading of the following subsystems:

• Temperature • Pressure

U2.2:03

Yes

R2.2.10

The CCTV camera shall provide a way to display a label on the video when an alarm’s status is active.

U2.2:03

No

U2.3 Manage Discrete

Inputs U2:0.1 No


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ts R2.3.1 The CCTV camera shall

provide a way for discrete inputs to display a label on the video when a discrete input is active.

U2.3:M

NA

R2.3.2 Discrete inputs shall be a latched type input. The discrete input latch shall latch the status of each input once and hold status until latch is cleared.

U2.4 Manage Discrete

Outputs U2:0.1 No

R2.4.1 The CCTV camera shall provide a way for external devices to be controlled via discrete outputs.

U2.4:M

NA

R2.4.2 When device is active, the camera shall display a label associated with the active discrete output.

U2.5 Manage Zones U2:0.1 Yes R2.5.1 The CCTV camera must

provide the capability for a user to define zones in which the camera is pointed.

U2.5:M

Yes Number of zones needed:_8____ (255 zones maximum)

R2.5.2 Each zone shall have a label associated so that when a camera is in a particular zone it displays the label on the video.

U3 Manage CCTV

Motion O Yes


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ts R3.1 The CCTV camera must

provide the ability to move the camera left and right in a panning motion.

U3:M Yes

R3.2 The CCTV camera must provide the ability to move the camera up and down in a tilting motion.

R3.3 The CCTV camera must provide the ability to change the zoom.

R3.4 The CCTV camera must provide the ability to change the focus.

R3.5 The CCTV camera must provide the ability to change the iris.

R3.6 The CCTV camera must provide the ability to go to a preset position.

R3.7 The CCTV camera must provide the ability to save a position to preset.

U4 Manage CCTV

Menu O Yes

R4.1 The CCTV camera must provide the ability to remotely activate the manufacturer menu.

U4:M Yes

R4.2 The CCTV camera must provide the ability to manipulate the menu with the Page Down command.

R4.3 The CCTV camera must provide the ability to manipulate the menu with the Page Up command.


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ts R4.4 The CCTV camera must

provide the ability to manipulate the menu with the Cursor Up command.

R4.5 The CCTV camera must provide the ability to manipulate the menu with the Cursor Down command.

R4.6 The CCTV camera must provide the ability to manipulate the menu with the Cursor Right command.

R4.7 The CCTV camera must provide the ability to manipulate the menu with the Cursor Left command.

R4.8 The CCTV camera must provide the ability to manipulate the menu with the Increment command.

R4,9 The CCTV camera must provide the ability to manipulate the menu with the Decrement command.

R4.10 The CCTV camera must provide the ability to manipulate the menu with the Enter command.

U5 Communicate

between the central application and CCTV Camera Controller application

M Yes


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ts R5.1 The CCTV Camera Controller

shall conform to Conformance Level 1 of NTCIP 2301 as a Managed Agent.

U5:M Yes

R5.2 The CCTV Camera Controller shall support the Security Conformance Group of NTCIP 1201 Amendment 1.

R5.3 Responses shall use the same Application Profile used by the request.

R5.4 Each NTCIP Component shall support the receipt of Application data packets at any time allowed by the subject standards

R5.5 The NTCIP Component may support additional Application Profiles at the manufacturer's option.

U6 Communicate

between the central computer and the field device

M Yes

R6.1 The CCTV Camera Controller shall conform to NTCIP 2202 and shall support UDP/IP.

U6:0.4 No

R6.2 The CCTV Camera Controller shall conform to NTCIP 2201.

U6:0.4 Yes

R6.3 Each NTCIP Component shall support the receipt of Application data packets at any time allowed by the subject standards

U6:M Yes


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ts R6.4 NTCIP Components may

support additional Transport Profiles at the manufacturer's option.

R6.5 Response datagrams shall use the same Transport Profile used in the request.

U7 Communicate

over a communications link

M Yes

R7.1 The CCTV Camera Controller shall conform to NTCIP 2103 over a null-modem connection.

U7:0.5 No

R7.2 The controller shall support data rates of 19.2 kbps, 14.4 kbps, 9600 bps, 4800 bps, 2400 bps, 1200 bps, 600 bps, and 300 bps.

U7:0.5 No

R7.3 The dial-up modem shall support data rates of 14.4 kbps, 9600 bps, 4800 bps, 2400 bps, 1200 bps, 600 bps, and 300 bps. Additionally, the NTCIP Component shall be able to make outgoing and receive incoming calls as necessary and support the following modem command sets:

• Hayes AT -Command Set

• MNP5 • MNP10 • V.42bis

U7:0.5 No


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ts R7.5 The CCTV Camera Controller

shall conform to NTCIP 2101 with an RS-232 physical interface and data rates of 1200, 2400, 4800, 9600, and 19,200 bits per second.

U7:0.5 Yes

R7.6 The CCTV Camera Controller shall conform to NTCIP 2103 over a contractor-provided, external dial-up modem connection.

R7.5:M

No

R7.7 The CCTV Camera Controller shall conform to NTCIP 2104 with an Ethernet physical interface and data rates of at least 10 megabits per second.

R7.:M No

R7.8 At any one time, only one Subnet Profile shall be active on a given communications port of the CCTV Camera controller.

U7:M Yes

R7.9 The CCTV Camera Controller may support additional Subnet Profiles at the manufacturer's option.

R7.10 If the CCTV Camera component has a communications port that supports multiple Subnet Profiles, the CCTV Camera component shall be configurable to allow the field technician to activate the desired Subnet Profile


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ts R7.11 If the CCTV Camera

component has a communications port that supports multiple Subnet Profiles, the CCTV Camera component shall provide a visual indication of the currently selected Subnet Profile.

R7.12 Each CCTV Camera component shall support the receipt of datagrams conforming to any of the identified Transport Profiles at any time

REQUIREMENTS TRACEABILITY Required implementation details for the requirements selected in the above table are defined in the following subclauses.

Simple Network Management Protocol (SNMP)

Each camera assembly shall conform to NTCIP 2301 as a Managed Agent and shall meet the requirements for Conformance Level 1.

GET INTERFACE This clause defines the Generic SNMP Get Interface, which is referenced by several of the rows in the Requirements Traceability Matrix. Upon the receipt of a Generic SNMP Get Request, the Controller shall respond with the appropriate SNMP Get Response with a maximum response time of 200 milliseconds. The following figure depicts the process by which the management station retrieves information from a device controller.


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: Management Station

: Controller

Get(varBindingList)

GetResponse(varBindingList)

SNMP Get Interface Diagram

SET INTERFACE A Generic SNMP Get Request is defined as any SNMP Get Request that only contains objects that have been defined to be accessible via the Generic SNMP Get Interface.

The ‘appropriate response’ is defined by the definitions of each object, the rules of SNMP, and other associated requirements as defined by this specification and related standards.

The controller shall verify all data within the message and, if valid, shall implement the new values within 100 milliseconds without requiring a controller reboot and shall issue the response.

The following figure depicts the process by which the management station sends information to a device controller.

: Management Station

: Controller

Set(varBindingList)

GetResponse(varBindingList)

SNMP Set Interface Diagram


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REQUIREMENTS TRACEABILITY MATRIX Note: The column marked ‘ID’ references the column of the same name (‘ID’) in the PRL, i.e., Row R1.1.1 (within column ‘ID’ of the PRL) corresponds to Row R1.1.1 in this table. If a row is marked ‘Yes’ within the ‘Project Requirements’ column of the PRL, the corresponding row within this table shall be implemented to be compliant with these specifications, i.e., Row R1.1.1 (within the PRL) has a ‘Yes’ in the ‘Project Requirements’ column of the PRL; thus, R1.1.1 of this table shall be implemented in the device to be compliant with these specifications.

The only exceptions are Rows R5.x, R6.x, and R7.x within the PRL, which reference particular NTCIP standards. If one of these rows (R5.x, R6.x, and R7.x) is selected, the referenced NTCIP Standard shall be implemented.

ID Required Dialog Required Object Standard Reference Required Object Range1

R1.1.1 The CCTV controller shall allow a Management Station to retrieve any of the following objects through the generic SNMP Get Interface.

global Max Modules module Device Node module Make module Model module Version module Type

NTCIP1201:1997A1:2.2.2 NTCIP1201:1997A1:2.2.3.2 NTCIP1201:1997A1:2.2.3.3 NTCIP1201:1997A1:2.2.3.4 NTCIP1201:1997A1:2.2.3.5 NTCIP1201:1997A1:2.2.3.6

S; shall be at least one S S S S S

R1.2.1 The CCTV controller shall

allow a Management Station to retrieve the following object through the generic SNMP Get Interface.

range Maximum Preset

NTCIP1205:2001:3.2.1 S; shall be at least the number of presets identified by PR1.2.1

1 S = this is only used for read-only objects and indicates that the object shall reflect the indicated status/configuration information.


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R1.2.2 The CCTV controller shall allow a Management Station to retrieve the following objects through the generic SNMP Get Interface.

range Pan Left Limit range Pan Right Limit

NTCIP1205:2001:3.2.2 NTCIP1205:2001:3.3.3

S S

R1.2.3 The CCTV controller shall allow a Management Station to retrieve the following object through the generic SNMP Get Interface.

range Pan Home Position

NTCIP1205:2001:3.2.4 S


range True North Offset

NTCIP1205:2001:3.2.5 0..35999 | 65535

The CCTV controller shall allow a Management Station to set the following object through the generic SNMP Set Interface.

range True North Offset

NTCIP1205:2001:3.2.5 0..35999 | 65535

R1.2.5 The CCTV controller shall allow a Management Station to retrieve the following objects through the generic SNMP Get Interface.

range Tilt Up Limitrange Tilt Down Limit

NTCIP1205:2001:3.2.6 NTCIP1205:2001:3.2.7

S S


range Zoom Limit NTCIP1205:2001:3.2.8 S


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rangeFocusLimit NTCIP1205:2001:3.2.9 S


rangeIrisLimit NTCIP1205:2001:3.2.10 S


rangeMinimumPanStepAngle

NTCIP1205:2001:3.2.11 S


range Minimum Tilt Step Angle

NTCIP1205:2001:3.2.11 S


allow a Management Station to get the following object through the generic SNMP Get Interface.

timeoutPan NTCIP1205:2001:3.3.1 0..65535


timeoutPan NTCIP1205:2001:3.3.1 0..65535


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R1.3.2 The CCTV controller shall allow a Management Station to get the following object through the generic SNMP Get Interface.

timeout Tilt NTCIP1205:2001:3.3.2 0..65535


timeoutTilt NTCIP1205:2001:3.3.2 0..65535


timeout Zoom NTCIP1205:2001:3.3.3 0..65535


timeout Zoom NTCIP1205:2001:3.3.3 0..65535

R1.3.4 The CCTV controller shall allow a Management Station to get the following objects through the generic SNMP Get Interface.

timeout Focus NTCIP1205:2001:3.3.4 0..65535


timeout Focus NTCIP1205:2001:3.3.4 0..65535

R1.3.5 The CCTV controller shall allow a Management Station to get the following objects through the generic SNMP Get Interface.

timeout Iris NTCIP1205:2001:3.3.5 0..65535


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timeout Iris NTCIP1205:2001:3.3.5 0..65535


allow a Management Station to set the following object through the generic SNMP Set Interface.

label Location Label

NTCIP1205:2001:3.11.3 0..255

The CCTV controller shall allow a Management Station to get the following object through the generic SNMP Get Interface.

label Location Label

NTCIP1205:2001:3.11.3 0..255


label Maximum NTCIP1205:2001:3.11.1 0..255

R1.4.3 The CCTV controller shall allow a Management Station to get all of the following objects through the generic SNMP Get Interface.

label Status label Color label Height label Index label Start Row label Start Column label Text

NTCIP1205:2001:3.11.2.8 NTCIP1205:2001:3.11.2.5 NTCIP1205:2001:3.11.2.4 NTCIP1205:2001:3.11.2.1 NTCIP1205:2001:3.11.2.6 NTCIP1205:2001:3.11.2.7 NTCIP1205:2001:3.11.2.2

Bit7: 0 or 1 Bit6: 0 or 1 Bits5..0: Reserved 1..16 0..255 1..maximum labels 0..255 0..255 octet string (size(0..255))


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R1.4.4 The CCTV controller shall allow a Management Station to set the following object through the generic SNMP Set Interface. The device shall respond to the Set command accordingly.

label Enable Text Display

NTCIP1205:2001:3.11.4 Bit7: 0 or 1

The CCTV controller shall allow a Management Station to get the following object through the generic SNMP Get Interface. The device shall respond to the Set command accordingly.

label Enable Text Display

NTCIP1205:2001:3.11.4 Bit7: 0 or 1



system Camera Equipped (camera power)

NTCIP1205:2001:3.6.3 Bit 7 shall be one (1).


system Camera Equipped (heater power)



system Camera Equipped (wiper)

NTCIP1205:2001:3.6.3 Bit 5 shall be zero (0).


system Camera Feature Equipped (washer)

NTCIP1205:2001:3.6.3 Bit 4 shall be zero (0).


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system Camera Equipped (blower)



system Lens Equipped (auto iris)

NTCIP1205:2001:3:6:6 Bit 7 shall be one (1).


system Lens Equipped (auto focus)

NTCIP1205:2001:3:6:6 Bit 6 shall be one (1).

R2.1.1.1


system Camera Feature Control (Camera Power)

NTCIP1205:2001:3.6.1 Bit7 of byte 1 shall be to 0 or 1


system Camera Feature Control

NTCIP1205:2001:3.6.1 Bit 7 of byte 1 shall be settable to 0 or 1

R2.1.1.2

The CCTV controller shall allow a Management Station to get the following objects through the generic SNMP Get Interface.

system Camera Feature Status (Camera power status)

NTCIP1205:2001:3.6.2 S

R2.1.2.1


system Camera Feature Control (Heater Power)

NTCIP1205:2001:3.6.1 Bit 6 of byte 1 shall be settable to 0 or 1


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NTCIP1205:2001:3.6.1 Bit 6 of byte 1 shall be 0 or 1

R2.1.2.2


system Camera Feature Status (Heater power status)

NTCIP1205:2001:3.6.2 S

R2.1.5.1


system Camera Feature Control (Blower)

NTCIP1205:2001:3.6.1 Bit3 of byte 1 shall be settable to 0 or 1



NTCIP1205:2001:3.6.1 Bit3 of byte 1 shall be 0 or 1

R2.1.5.2


system Camera Feature Status (Blower status)

NTCIP1205:2001:3.6.2 S

R2.1.7.1

The CCTV controller shall allow a Management Station to set the following objects through the generic SNMP Set Interface.

system Lens Feature Control (Auto Iris)

NTCIP1205:2001:3.6.4 Bit 7 of Byte 1 shall be settable to 1 or 0


system Lens Feature Control

NTCIP1205:2001:3.6.4 Bit 7 of Byte 1 shall be 1 or 0


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R2.1.7.2


system Lens Feature Status (Auto Iris Status)

NTCIP1205:2001:3.6.5 S

R2.1.8.1

The CCTV controller shall allow a Management Station to set the following objects through the generic SNMP Set Interface.

system Lens Feature Control (Auto Focus)

NTCIP1205:2001:3.6.4 Bit 6 of Byte 1 shall be settable to 1 or 0


system Lens Feature Control

NTCIP1205:2001:3.6.4 Bit 6 of Byte 1shall be 1 or 0

R2.1.8.2


system Lens Feature Status (Auto focus status)

NTCIP1205:2001:3.6.5 S



alarm Status (open cabinet)

NTCIP1205:2001:3.7.1 S, Bit7


alarm Status (open enclosure)

NTCIP1205:2001:3.7.1 S, Bit6


alarm Status (video loss)

NTCIP1205:2001:3.7.1 S, Bit5


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alarm Status (temperature)

NTCIP1205:2001:3.7.1 S, Bit4


alarm Status (pressure)

NTCIP1205:2001:3.7.1 S, Bit3


alarm Status (local management)

NTCIP1205:2001:3.7.1 S, Bit2

R2.2.8 The CCTV controller shall allow a Management Station to set all of the following objects through the generic SNMP Set Interface.

alarm Temperature High Low Threshold alarm Pressure High Low Threshold

NTCIP1205:2001:3.7.4 NTCIP1205:2001:3.7.6

FSOR2 FSOR


alarm Temperature Current Value alarm Pressure Current Value

NTCIP1205:2001:3.7.5 NTCIP1205:2001:3.7.7

S S


allow a Management Station to get the following objects through the generic SNMP Get Interface.

zone Maximum NTCIP1205:2001:3.10.1 0..255

2 Full Standardized Object Range


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zone Index zone Pan Left Limit zone Pan Right Limit zone Tilt Up Limit zone Tilt Down Limit

NTCIP1205:2001:3.10.2.1 NTCIP1205:2001:3.10.2.3 NTCIP1205:2001:3.10.2.4 NTCIP1205:2001:3.10.2.5 NTCIP1205:2001:3.10.2.6

0..255 0..35999 | 65535 0..35999 | 65535 0..35999 | 65535 0..35999 | 65535



zone Label NTCIP1205:2001:3.10.2.2

0..255

The CCTV controller shall allow a Management Station to set the following object through the SNMP Set Interface.

zone Label NTCIP1205:2001:3.10.2.2

0..255

R3.1 The CCTV controller shall

allow a Management Station to set the following objects through the generic SNMP Set Interface. The camera shall respond accordingly.

position Pan

NTCIP1205:2001:3.5.1 FSOR

R3.2 The CCTV controller shall allow a Management Station to set the following objects through the generic SNMP Set Interface. The camera shall respond accordingly.

position Tilt

NTCIP1205:2001:3.5.2 FSOR


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position Zoom Lens

NTCIP1205:2001:3.5.3 FSOR


position Focus Lens

NTCIP1205:2001:3.5.4 FSOR


position Iris Lens NTCIP1205:2001:3.5.5 FSOR

R3.6 The CCTV controller shall allow a Management Station to set the following objects through the SNMP Set Interface. The camera shall respond accordingly.

presetGotoPosition NTCIP1205:2001:3.4.1 FSOR

The CCTV controller shall allow a Management Station to get the following objects through the SNMP Get Interface.

presetGotoPosition NTCIP1205:2001:3.4.1 FSOR

R3.7 The CCTV controller shall allow a Management Station to set the following objects through the SNMP Set Interface.

presetStorePosition NTCIP1205:2001:3.4.2 FSOR


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The CCTV controller shall allow a Management Station to get the following objects through the SNMP Get Interface.

presetStorePosition NTCIP1205:2001:3.4.2 FSOR

R4.1 The CCTV controller shall

allow a Management Station to get the following object through the generic SNMP Get Interface. The camera shall respond accordingly.

menu Activate NTCIP1205:2001:3.12.1 0..255

The CCTV controller shall allow a Management Station to set the following object through the generic SNMP Set Interface. The camera shall respond accordingly.

menu Activate NTCIP1205:2001:3.12.1 FSOR

R4.2 The CCTV controller shall allow a Management Station to set the following object through the generic SNMP Set Interface. The camera shall respond accordingly.

menu Control NTCIP1205:2001:3.12.2 Shall support value of 1




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DOCUMENTATION The implementation shall be provided with an updated PICS statement (i.e., an update of the table provided above) to indicate the protocol capabilities that were actually implemented in the device.

The component shall be supplied with full documentation, including CD-ROM containing ASCII versions of the following Management Information Base (MIB) files in Abstract Syntax Notation 1 (ASN.1) format:

• The relevant version of each official standard MIB Module referenced by the device functionality.

• If the device does not support the full range of any given object within a Standard MIB Module, a manufacturer-specific version of the official Standard MIB Module with the supported range indicated in ASN.1 format in the SYNTAX and/or DESCRIPTION fields of the associated OBJECT TYPE macro shall be provided. The filename of this file shall be identical to the standard MIB Module, except that it shall have the extension “.man”.

• A MIB Module in ASN.1 format containing any and all manufacturer-specific (or agency-specific) objects supported by the device with accurate and meaningful DESCRIPTION fields and supported ranges indicated in the SYNTAX field of the OBJECT-TYPE macros.

• A MIB containing any other objects supported by the device.

PROPERTY RIGHTS The manufacturer shall allow the use of any and all of this documentation by any party authorized by the Procuring Agency for systems integration purposes at any time initially or in the future, regardless of what parties are involved in the systems integration effort.

ACCEPTANCE TESTING As part of the overall Testing Requirements (see “Testing” Section below), the manufacturer shall propose to the AGENCY a set of tests that shall fulfill the requirements defined in the above PRL Table and the corresponding RTM Table. The AGENCY reserves the right to enhance these tests as deemed appropriate to ensure device conformance to the NTCIP and compliance with these procurement specifications.

WARRANTIES

In addition, the developer shall provide free software upgrades for a period of 24 months from successful acceptance of the individual CCTV assemblies.


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INTERPRETATION RESOLUTION

If the Project Engineer or CCTV Camera component developer discovers an ambiguous statement in the standards referenced by this procurement specification, the proper interpretation shall be decided by the relevant NTCIP working group. If a resolution to an ambiguous statement cannot be obtained from the relevant NTCIP Working Group with (4) weeks, the Project Engineer and the CCTV Camera component developer shall jointly determine how to address this problem to avoid schedule delays.

CONSTRUCTION DETAILS The Contractor shall prepare shop drawings, which detail the complete camera assembly and all components to be supplied. Particular care shall be given to all required attachment hardware and the interconnection of all of the components and the cabling. The Contractor shall submit shop drawings 30 days prior to the installation of the Camera Assembly to the Engineer for review and approval.

The CCTV shall be terminated in the equipment cabinet indicated in the plans. This cabinet includes a video encoder/decoder unit, communication, and power interfaces. The Contractor shall install the dome assembly at the CCTV poles or the building locations indicated in the plans The cost of camera installation at the building locations shall be included in the Camera Assembly item. A ring splice shall be performed on the cable to remove the power wires from the outer shell of the cable. The feed to the CCTV shall be connected to a 120 VAC power source or 24 VAC power supply. The composite cable shall be of sufficient length to terminate all required functions in the equipment cabinet. Appropriate connectors shall be supplied to interface the in-cabinet components to the integrated dome camera assembly being installed. The Contractor shall mount the in-cabinet components in the equipment cabinet and connect them to AC power, communications, and video feeds.

Testing The Camera Assembly shall be subjected to several levels of testing (Standalone, Central Operations, and System Acceptance). The Engineer reserves the right to inspect and/or factory test any completed assemblies prior to delivery of the material to the project site. Any deviations from these specifications that are identified during testing shall be corrected prior to shipment of the assembly to the project site.

• A Standalone test shall be performed for each completed Camera Assembly. The test shall be conducted from the field equipment cabinet utilizing a notebook computer. The Contractor shall verify that the camera can be fully used and moved through the entire limit of Pan, Tilt, Zoom, and Focus. In addition, the ability to switch between full RGB color and B/W under varying lighting conditions, the ability to create a minimum of 64 pre-sets, and the ability to program a minimum of eight (8) privacy zones shall be tested to be in accordance with the specification.


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• Camera Assembly Central Operations Test shall be performed for each completed Camera Assembly after all construction and installation have been completed and the cameras have been integrated into the communication network. The test shall be conducted from the NYSDOT Region 3 Traffic Operations Center utilizing a desktop computer that is connected to the communications network. The Contractor shall verify that each camera can be fully used and moved through the entire limit of Pan, Tilt, Zoom, and Focus. In addition, the ability to switch between full RGB color and B/W under varying lighting conditions, the ability to create a minimum of 64 pre-sets, and the ability to program a minimum of eight (8) privacy zones shall be tested to be in accordance with the specification.

• System Acceptance Test: When all other tests have been passed successfully, a System Acceptance Test shall begin. This period shall not begin until all CCTV field assemblies have passed those tests. The purpose of this period is to ensure that the CCTV system as a whole functions as desired.

Any bugs, problems and issues that may surface during this period shall be resolved by the vendor by replacing the part or by fixing the software within 2 weeks. Every time that a problem occurs that cannot be fixed immediately via telephone support shall stop the System Acceptance Test. If a problem cannot be corrected after 2 attempts, the System Acceptance Test shall be re-started. If five (5) or more problems occur that can be contributed to the vendor equipment, the System Acceptance Test shall be restarted.

Warranty All components to be supplied under this specification shall be warranted for a minimum of two-years from the successful conclusion of the 6-month System Acceptance Test. This warranty shall include repair and/or replacement of all failed components via a factory authorized depot repair service. All items sent to the depot for repair shall be returned within two weeks of the date of receipt at the facility. The depot location shall be in the United States. Repairs shall not require more then two weeks from date of receipt and the provider of the warranty shall be responsible for all return shipping costs. The depot maintainer designated for each component shall be authorized by the original manufacturer to supply this service. A warranty certificate shall be supplied for each component from the designated depot repair site indicating the start and end dates of the warranty. The certificate shall be supplied at the conclusion of the System Acceptance Test and shall be for a minimum of two years after that point. The certificate shall name NYSDOT as the recipient of the service. NYSDOT shall have the right to transfer this service to other private parties who may be contracted to perform overall maintenance of the facility.

Manuals One copy of all operations and maintenance manuals for each CCTV component shall be delivered for each assembly installed.


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METHOD OF MEASUREMENT The Camera Assembly bid item will be paid for as each completed unit is furnished, and, along with associated materials, installed, made fully operational, tested, and accepted. BASIS OF PAYMENT The unit price bid for each Camera Assembly shall include the cost of furnishing all equipment, materials, testing, documentation, warranty, and labor (including the cost for labor and materials related to the mounting of Camera Assemblies on Buildings, as specified on the plans) as detailed in the contract documents.

Progress payments will be made in the following percentages of the bid price for each item after each milestone is reached and has been successfully passed.

Delivery of Assembly to the Job Site - 40%

Operational Standalone Test of Assembly - 30%

Central Operations Test - 10%

System Acceptance Test - 20%

item 683.9301 03 m – camera assembly · 2010. 8. 4. · item 683.9301 03 m – camera assembly...

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