Specification - Audio Video Entertainment System: West Qurna I

SPECIFICATION - AUDIO I VIDEO ENTERTAINMENT SYSTEM

WEST QURNA I

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SPECIFICATION - AUDIO I VIDEO ENTERTAINMENT SYSTEM 00 - COMMON OVERALL - ALL AREAS

IQWQ-FT -TSPDS-00-31 0801 (Based upon ExxonMobil GP 31-08-01, Version 1.0.0, dated December 2007) ISSUED FOR USE (IFU) 29-Jun-2011

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SPECIFICATION - AUDIO / VIDEO ENTERTAINMENT SYSTEM TABLE OF CONTENTS

1.

2

3

4

5

INTRODUCTION ................................................................................................................................ 4 1.1

FACILITY OVERVIEW ...............................................................................................................4

1.2

SCOPE .......................................................................................................................................4

REQUIRED REFERENCES ............................................................................................................... 5 2.1

PROJECT DOCUMENTS ..........................................................................................................5

2.2

ADDITIONAL REQUIREMENTS ...............................................................................................5

2.3

STANDARDS .............................................................................................................................5

2.4

IEC-INTERNATIONAL ELECTROTECHNICAL COMMISSION...............................................6

2.5

DEFINITIONS.............................................................................................................................6

2.6

IDENTIFICATION REQUIREMENTS ........................................................................................8

2.7

ENVIRONMENTAL CONDITIONS ............................................................................................8

2.8

POWER SOURCE .....................................................................................................................8

DIRECT BROADCAST SATELLITE DOWNLINK SYSTEM ............................................................. 9 3.1

GENERAL DESIGN CONSIDERATIONS .................................................................................9

3.2

SITE EVALUATION ...................................................................................................................9

3.3

FIXED SATELLITE DISH REQUIREMENTS ............................................................................9

3.4

LOW NOISE BLOCK DOWN CONVERTER REQUIREMENTS ............................................10

3.5

COAXIAL CABLE REQUIREMENTS (ANTENNA TO HEADEND) .......................................10

3.6

SATELLITE RECEIVER REQUIREMENTS ............................................................................10

3.7

SATELLITE RECEIVER REQUIREMENTS ............................................................................11

FREE-TO-AIR TELEVISION AND RADIO RECEIVER SYSTEMS ................................................. 11 4.1

LOCAL TELEVISION (FREE-TO-AIR) ANTENNA REQUIREMENTS ...................................11

4.2

AM/FM RADIO (FREE-TO-AIR) ANTENNA REQUIREMENTS .............................................11

4.3

END-USER VIDEO / AUDIO EQUIPMENTS...........................................................................12

4.4

COAXIAL CABLE REQUIREMENTS (ANTENNA TO HEADEND) .......................................12

4.5

ACTIVE SPLITTERS ...............................................................................................................12

4.6

FREE-TO-AIR TELEVISION RECEIVER REQUIREMENTS ..................................................12

4.7

AM/FM RECEIVER REQUIREMENTS ....................................................................................12

INTERNET PROTOCOL TELEVISION (IPTV) SYSTEM ................................................................. 13 5.1

IP AUDIO / VIDEO (A/V) ENCODER REQUIREMENTS ........................................................13

5.2

MIDDLEWARE.........................................................................................................................14

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5.3

ELECTRONIC PROGRAMMING GUIDE ................................................................................15

5.4

VIDEO-ON-DEMAND (VOD) AND MUSIC-ON-DEMAND ......................................................15

5.5

CONTENT AND DIGITAL RIGHTS MANAGEMENT (DRM) ..................................................16

5.6

DIGITAL SIGNAGE .................................................................................................................16

5.7

SET TOP BOX (INTERFACE TO TELEVISION) ....................................................................17

5.8

TELEVISION SETS .................................................................................................................17

5.9

INTERFACE TO PUBLIC ADDRESS AND EMERGENCY ALARM SYSTEM ......................17

5.10 IPTV STRUCTURED CABLING AND FIBER BACKBONE ...................................................17 6

ACCEPTANCE TESTS .................................................................................................................... 18 6.1

FACTORY ACCEPTANCE TESTING (FAT) ...........................................................................18

6.2

SITE ACCEPTANCE TEST (SAT) ..........................................................................................18

6.3

WARRANTY ............................................................................................................................19

7

DOCUMENTATION AND DRAWINGS ............................................................................................ 19

8

SUPPORTING EQUIPMENTS ......................................................................................................... 19

9

8.1

TEST EQUIPMENT ..................................................................................................................19

8.2

SPARES...................................................................................................................................20

SAFETY AND SECURITY ................................................................................................................ 20 9.1

SAFETY ...................................................................................................................................20

9.2

SITE SECURITY ......................................................................................................................21

ATTACHMENT: PURPOSE CODE DEFINITIONS................................................................................... 22

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1.

SPECIFICATION - AUDIO / VIDEO ENTERTAINMENT SYSTEM

INTRODUCTION This document specifies the basic requirements, standards, and specifications on the design, and operation of the satellite Audio / Video (A/V) Entertainment System. The Entertainment System will provide personnel, during non-working hours, a selection of English and Arabic language audio and visual entertainment programs. The specification is based upon part of ExxonMobil GP 31-08-01, Version 1.0.0, dated December 2007.

1.1

FACILITY OVERVIEW West Qurna I is a producing oil field located about 50 km northwest of Basra, Iraq. ExxonMobil Iraq Limited (EMIL) has been selected by the Ministry of Oil (MoO) to work in a joint venture with South Oil Company (SOC) to rehabilitate and expand oil production in the field. The work will be conducted in phases. The first phase is the Early Works Project (EWP), and the second phase is the Enhanced Redevelopment Project (ERP). The EWP is comprised of the following work scopes; rehabilitation of the existing facilities, restoration of nameplate oil production capacity, and initiation of water injection for reservoir pressure support.

1.2

SCOPE Final equipment quantities and TV programming channels shall be recommended by Contractor and approved by Company, during detailed design. The Audio / Video Entertainment Systems consist of English and Arabic satellite video and /or audio feeds that are processed and distributed throughout the facilities for viewing. The Audio and Video programs shall be distributed via a broadband CAT-6 structured cable system to the set-top boxes and then played on television sets that are located in accommodation rooms, common areas, dinning rooms, recreation areas, living quarters, and other selected areas. The entertainment system shall have the following sub-systems, as a minimum. 

Satellite TVRO receivers



Radio / TV antennas and receivers (if local channels are available)



IP Video and Audio Encoders.



IP Video and Audio servers



Middleware (IPTV server with software and licenses)



Set Top Boxes



Flat panel Multi-System Television sets (915 mm TV for common areas, 483 mm TV for quarters).

The entertainment system shall be able to re-broadcast, but not limited to, the following sources: 

TVRO satellite Video and Audio Programs ( for Arabic and English contents)



Local TV stations (if available)



Local radio stations (if available)



DVD players ( for 2 preprogrammed TV channels for broadcast)



CD players (for 2 continuous audio channels for broadcast)

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2

SPECIFICATION - AUDIO / VIDEO ENTERTAINMENT SYSTEM

REQUIRED REFERENCES This section lists the Practices, codes, standards, and specifications that shall be used with this document. Unless otherwise specified herein, use the latest edition.

2.1

PROJECT DOCUMENTS DOCUMENT NO.

2.2

DESCRIPTION

IQWQ-FT-BSPDS-00-010103

Drafting Standards

IQWQ-EI-BSPDS-00-120101

Upstream Numbering Documents

IQWQ-EI-BSPDS-00-120102

Upstream Identification of Equipment, Components and Devices, Lines, and Valves

IQWQ-FT-ESPDS-00-160101

Area Classification and Related Electrical Design for Flammable liquids, gases, or Vapors

IQWQ-FT-ISPDS-00-150602

Environmental Protection for Instrumentation

IQWQ-FT-TSPDS-00-310101

Upstream Structured Cabling System

IQWQ-FT-TSPDS-00-310103

RF Cabling

IQWQ-FT-TSPDS-00-310201

Computing and Telecommunications Rooms

IQWQ-FT-TSPDS-00-310304

Public Address/General Alarm System with Page Party

IQWQ-FT-TSPDS-00-0002

Earthing Requirements for Telecommunication Systems

IQWQ-FT-TSPDS-00-0003

Outside Plant Cabling System

System

for

Project

Technical

ADDITIONAL REQUIREMENTS This section lists the additional codes, standards, and specifications that shall be used with this document only where specified. Unless otherwise specified herein, use the latest edition.

2.3

STANDARDS Equipment shall be selected and systems engineered to conform to internationally accepted specifications and standards, Project standard design codes, and Company requirements. The International Electro-technical Commission (IEC) and the International Telecommunications Union (ITU), in conjunction with applicable Iraq regulations shall form the prime source for Project conformance. [I] In this project, the Project Design Memorandum (PDM) shall define the standards to be applied during detailed engineering and implementation. Where no applicable project standards, local standards, or international standards are available, recommendations from the following associations and agencies shall form the basis for design and equipment selection as far as they are not in conflict with local or international regulations: 

American National Standards Institute (ANSI)



Electronic Industries Alliance (EIA)



Institute of Electrical and Electronics Engineers (IEEE)

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

National Fire Protection Association (NFPA)



National Electrical Manufacturers Association (NEMA)



Occupational Safety and Health Administration (OSHA)



Telecommunications Industry Association (TIA)

Where no relevant local or international standards and codes are specified, the corresponding standard of best industry-accepted engineering practice shall be applied. 2.4

IEC-INTERNATIONAL ELECTROTECHNICAL COMMISSION STANDARDS

2.5

DESCRIPTION

IEC 60079-1

Explosive Atmospheres, Part 1 Flameproof Enclosures “d” (Ex d)

–

Equipment

Protection

by

IEC 60079-7

Explosive Atmospheres, Part 7 – Equipment Protection by Increased Safety “e” (Ex e)

IEC 60529

Degrees of protection provided by enclosures (IP Code)

DEFINITIONS TERM

DESCRIPTION

AAC

Advance Audio Coding

AM / FM

Amplitude Modulation / Frequency Modulation

A/V

Audio / Video

CD

Compact Disk

DRM

Digital Rights Management

DTS

Digital Theatre System

DVD

Digital Video Disk

EMI

Electromagnetic Interference

EMIL

ExxonMobil Iraq Limited

EPG

Electronic Programming Guide

ERP

Enhanced Redevelopment Project

EWP

Early Works Project

FAT

Factory Acceptance Test

FEED

Front End Engineering Design

I/O

Input/Output

IF

Intermediate Frequency

IP

Internet Protocol

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TERM

DESCRIPTION

IPTV

Internet Protocol Television

LAN

Local Area Network

LNB

Low Noise Block

LSZH

Low Smoke Zero Halogen

MoO

Ministry of Oil

NT

Network Termination

NTSC

National Television Standards Committee

PAGA

Public Address and General Alarm

PAL

Phase Alternating Line

PC

Personal Computer

PDF

Portable Document Format

PDM

Project Design Memorandum

RF

Radio Frequency

RFI

Radio Frequency Interference

SECAM

Sequential Color with Memory

SAT

Site Acceptance Test

SOC

South Oil Company

TE

Telecomm Reference Earth

TER

Telecomm Equipment Room

TV

Television

TVRO

Television Receive Only

UHF

Ultra High Frequency

UPS

Uninterruptible Power Supply

VCD

Video Compact Disk

VCR

Video Cassette Recorder

VHS

Video Home System

VHF

Very High Frequency

VoD

Video-on-Demand

WAN

Wide Area Network

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2.6

SPECIFICATION - AUDIO / VIDEO ENTERTAINMENT SYSTEM

IDENTIFICATION REQUIREMENTS All project technical documents to be used on this projects, which include the Front End Engineering Design (FEED), detailed engineering, design/procurement/construction, Original Equipment Manufacturer (OEM), Vendor, and Sub-vendor documentation, must comply with project specification No. IQWQ-EI-BSPDS-00-120101 All equipment and components must be identified as per project specification No. IQWQ-EIBSPDS-00-120102 which describes the system for identification of all mechanical and electrical equipment (Primary and Auxiliary), components, devices, support equipment to be used on facilities and plants in this project. This identification system will be used on Vendor Detailed drawings, Equipment Layout (General Arrangement) drawings, specifications, technical Data Sheets, Purchase Requisitions, Equipment Identification Labels, and associated lists.

2.7

ENVIRONMENTAL CONDITIONS The cables shall operate and meet without any degradation all of the functional requirements under the following environmental conditions: 

Indoor Temperature Operating/Installation Temperature:



o 0 C

to

o + 45 C.

-5o C

to

+ 55o C

Outdoor Temperature Operating/Installation Temperature:

All equipment for outdoor use shall be at the minimum suitable for use in Zone 2, Group IIA hazardous areas and bare the appropriate markings. All equipment for outdoor use shall have ingress protection in addition to the proper hazardous area rating per the area classification requirements of project specification No. IQWQ-FT-ESPDS-00-160101 and specification No. IQWQ-FT-ISPDS-00-150602 One of the folllowing electrical pretection methods shall at a minimum be used to meet the required electrical area clafficiations:

2.8

o

IEC 60079-1 (Flame Proof Enclosures, Exd)

o

IEC 60079-7 (increased Safety, Exe)



IP65 ingress protection per IEC 60529 shall be provided as a minimum.



Testing standards for instruments shall meet IEC testing requirementns with IEC marking and approval certificate.

POWER SOURCE The power source is 230 VAC, 50 Hz, single phase Power for all entertainment system equipment shall be consistent with local power requirements. Uninterruptible power supply (UPS) power shall be provided to all headend equipment. UPS power is not required for end-user equipment.

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3

DIRECT BROADCAST SATELLITE DOWNLINK SYSTEM

3.1

GENERAL DESIGN CONSIDERATIONS [ I ] This section contains some of the general design considerations for the satellite A/V downlink system.

3.2



[ A ] Selection of the Satellite Service Provider: For Brownfield locations, the Service Provider used for the new installation should be the same Service Provider used for other field locations. For Greenfield locations, the Service Provider used should be capable of providing a sufficient signal footprint at the service location.



In any event, selection of the Satellite Service Provider should be agreed upon by Company and include the availability of local support for maintenance and replacement parts.



The number of available satellite audio / video and / or free-to-air radio channels (AM/FM) should be provided by Contractor and Company shall determined the programming setup during detailed engineering.



The end user equipment (televisions, radios, VHS, VCD, DVD, etc.) quantities and locations shall be designed by Contractor and approved by Company during detailed engineering



Frequency Band: In areas of persistent rain, fog, or snow conditions, the frequency band should be chosen to minimize signal attenuation.



Growth: Evaluate whether future growth is required for the system prior to design.



Warranty: Warranty should be considered when selecting vendors and manufacturers. Warranty requirements may be dependent on the size and location of the project.

SITE EVALUATION The evaluation of the proposed site is an important step in deciding where to locate the outdoor satellite dish. Consider the following when selecting a site:

3.3



[R] Uninterruptible line-of-sight (elevation and azimuth) between the earth station dish and the satellite.



Availability of earthing points for the satellite dish in the event a new earthing point cannot be established.



The distance between the satellite dish and indoor headend equipment in regards to cable length limitations.



Susceptibility to strong vibrations and shock.



[R] Proximity of satellite dish to strong electromagnetic interference (EMI) and radio frequency interference (RFI) sources.



[S] Dish shall not be located in a hazardous area in compliance with site area classification requirements.

FIXED SATELLITE DISH REQUIREMENTS [R] The size of the satellite dish shall be suitable to provide sufficient gain of the received signal. Atmospheric conditions should be taken into account.

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The satellite dish shall be properly earthed. Reference to project specification No. IQWQ-FTTSPDS-00-0002 as appropriate. [R] A suitable foundation shall be installed for each antenna. The foundation should be designed to withstand the maximum environment conditions, such as wind velocity, ice loading, and seismic activity specified in the project design basis memorandum. For high wind and/or ice situations, a radome shall be installed. 3.4

LOW NOISE BLOCK DOWN CONVERTER REQUIREMENTS The satellite dish(es) shall contain a digital low noise block (LNB) down converter with a low noise figure / temperature and high gain. Below are general design parameters and guidelines for selecting a LNB. However, it shall be noted that the specifications for the final LNB required will be dependent on the geographic location of the dish and the Service Provider selected, the size of the dish, and the length of cable run that will be installed.

3.5



For extended C-band (lower), C-band, and extended C-band (upper) applications, LNB noise temperature should be 17 Kelvin. The gain of the LNB shall be 65 dB under all conditions (changes in temperature and receive frequency range).



For Ku-band applications, a universal quad LNB should be utilized (10.7–11.7 GHz) using the lower 9.75 GHz local oscillator frequency and 11.7–12.75 GHz using the higher 10.6 GHz local oscillator frequency). LNB noise figure should be 0.4 dB. The gain of the LNB shall be 65 dB under all conditions (changes in temperature and receive frequency range). The universal LNB should contain four output ports (Vertical LO, Horizontal LO, Vertical HI, and Horizontal HI).



For Ka-Band applications, LNB noise figure should be 1.3 dB. The gain of the LNB shall be 65 dB under all conditions (changes in temperature and receive frequency range).



For any LNB selection, the match between the transmission line and the LNB shall be designed to ensure maximum signal transfer.



The impedance of all output connector(s) on any LNB shall be 75 ohms.



The LNB holding bracket shall be capable of supporting 360° polarization tilt (skew) of the LNB.

COAXIAL CABLE REQUIREMENTS (ANTENNA TO HEADEND) Low-loss coaxial cable shall be installed between the LNB located on the satellite dish and the active splitters located in the headend equipment cabinet. Reference project specification No. IQWQ-FT-TSPDS-00-310103 as appropriate. The coaxial cable between the satellite dish antenna and the headend shall be at the minimum RG-11/U quad shield. The impedance of the coaxial cable and associated coaxial connectors shall be 75 ohms. All coaxial cable branches shall be appropriately earthed at both the antenna end and at the point of building entrance.

3.6

SATELLITE RECEIVER REQUIREMENTS Appropriately sized active splitter units shall be installed within the headend unit in order to split the signal from the satellite dish to all satellite television receivers.

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Each port on the active splitter units shall be of sufficient gain, isolation, return loss, and noise figure to provide adequate signal strength (90 percent) and signal quality (90 percent) measurement to each satellite receiver. The active splitter units designated for satellite entertainment service shall be capable of passing the IF (intermediate frequency) signal from the satellite LNB. Spare active splitters shall be provided for future growth. 3.7

SATELLITE RECEIVER REQUIREMENTS Each satellite channel requires a satellite receiver for the TV program to be rebroadcast to the IPTV system. All satellite receivers shall be procured from the Satellite Service Provider chosen for the project and shall be capable of adequately interfacing with the IP encoder equipment installed within the headend. Each satellite receiver shall be capable of 482.5 mm. rack mounting. Each satellite receiver shall interface to the satellite dish via the active splitter units.

4

FREE-TO-AIR TELEVISION AND RADIO RECEIVER SYSTEMS

4.1

LOCAL TELEVISION (FREE-TO-AIR) ANTENNA REQUIREMENTS In the event local television programming is available and the chosen Satellite Service Provider for the location cannot provide the desired local programming, free-to-air television system equipment shall be installed and integrated into the headend system. A high-gain antenna covering the entire frequency range of the local free-to-air television system shall be installed in a location that provides uninterruptible line-of-site with the nearest television broadcast site. The antenna shall be properly earthed. Reference to project specification No. IQWQ-FT-TSPDS-00-0002 as appropriate. A suitable antenna support structure (stainless steel or galvanized) shall be installed for the antenna and properly earthed. The antenna and antenna support structure should be designed to withstand the maximum environment conditions, such as wind velocity, ice loading, and seismic activity specified in the project design basis memorandum.

4.2

AM/FM RADIO (FREE-TO-AIR) ANTENNA REQUIREMENTS In the event local AM/FM radio programming is available and the chosen Satellite Service Provider for the location cannot provide the desired local programming, a free-to-air AM/FM radio system shall be installed and be incorporated into the headend system: A high-gain antenna covering the entire frequency range of the local AM/FM radio system shall be installed in a location that provides uninterruptible line-of-site with the AM/FM radio transmission site. The antenna shall be properly earthed. A suitable antenna support structure (stainless or galvanized steel) shall be installed for the antenna and properly earthed. The antenna and antenna support structure shall be capable of a minimum wind loading of 200 km/h.

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4.3

SPECIFICATION - AUDIO / VIDEO ENTERTAINMENT SYSTEM

END-USER VIDEO / AUDIO EQUIPMENTS The following end-user video / audio equipment shall be provided for the broadcast of Company materials such as training, notices, advisory information, and music :

4.4



Blue-Ray / DVD / VCD players that support, but not limited to, PAL and NTSC video formats. The DVD / VCR players shall be “zone-free” and be able to support all the international DVD zones.



CD players that support standard CD stereo, Dolby Digital (AC-3) 5.1 surroundsound, and Digital Theatre System (DTS) audio signals. It shall be able, but not limited, to play standard CD audio, window media audio, and MP3 formats.

COAXIAL CABLE REQUIREMENTS (ANTENNA TO HEADEND) The coaxial cable between the free-to air television antenna and the headend shall be at the minimum RG-11/U quad shield. The impedance of the coaxial cable and associated coaxial connectors shall be 75 ohms. The coaxial cable between the free-to-air AM/FM radio antenna and the headend shall be at the minimum RG-8. The impedance of the coaxial cable and associated coaxial connectors shall be 50 ohms. All coaxial cable branches shall be appropriately earthed at both the antenna end and at the point of building entrance.

4.5

ACTIVE SPLITTERS Appropriately sized active splitter units shall be installed within the headend unit in order to split the signal from AM/FM radio and free-to-air television antennas to AM/FM radio and television receivers. Each port on the active splitter units shall be of sufficient gain, isolation, return loss, and noise figure to provide adequate signal strength (90 %) and signal quality (90 %) measurement to each AM/FM radio and free-to-air television receiver. The active splitter units designated for the free-to-air AM/FM radio services shall cover the entire frequency range of the local AM/FM radio system. The active splitter units designated for the free-to-air local television services shall cover the entire frequency range of the local free-to-air television system. Spare active splitters shall be provided for future growth.

4.6

FREE-TO-AIR TELEVISION RECEIVER REQUIREMENTS The input frequency of each free-to-air receiver shall be consistent with the frequency range of the free-to-air television system and shall be capable of adequately interfacing with the IP Video / Audio encoder equipment installed within the headend.

4.7

AM/FM RECEIVER REQUIREMENTS The following information applies if free-to-air AM/FM radio programming will be incorporated into the headend system: An AM/FM radio receiver for each AM/FM station that is to be rebroadcast at the headend shall be installed. Each AM/FM radio receiver shall interface to the AM/FM antenna via the active

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splitter units. Each AM/FM radio receiver shall at the minimum conform to the following specifications: Table 1: Specifications for AM/FM Receivers Feature

Specification

Frequency Range

Entire frequency range of the local AM/FM radio system

Tuning

Digital (manual and auto)

[ I ] Final specifications for AM/FM receiver equipment should be agreed upon and approved by the Company and shall be capable of adequately interfacing with the IP Video / Audio encoder equipment installed within the headend. 5

INTERNET PROTOCOL TELEVISION (IPTV) SYSTEM The IPTV is a fully managed and feature rich infotainment system designed to improve crew morale by providing information / entertainment programs to personnel during their off periods. The IPTV system coverts video / audio signals ( from satellite receiver, VHS/VCR player, DVD /VCD /CD player/changer, etc.) into IP packed-switched multimedia stream and distributes to the end-user equipment (set top box) utilizing the WAN and LAN network architect. The IPTV system shall have the following sub-systems, as a minimum. 

IP Video and Audio Encoders.



Middleware (IPTV server) with the following software and licenses: -

Basic middleware software

-

Electronic Programming Guide Software

-

Video-on-Demand (VoD) and Music-on-Demand software (only when WAN / LAN network bandwidth is available).

-

Digital Rights Management software

-

Digital Signage software



Set Top Boxes (end-user equipment)



Flat panel digital television sets

The hardware and software requirement for the IPTV system shall be determined during detailed engineering. 5.1

IP AUDIO / VIDEO (A/V) ENCODER REQUIREMENTS The audio / video signals from satellite receiver, VHS/VCR player, DVD /VCD /CD player/changer are converted by encoders into IP streams and integrated into the IPTV system for distribution to the set top boxes. Each video signal shall require an IP A / V encoder to convert the video / audio program into IP streams. The IP stream will be sent to the IP A / V server and then multicast to the set top boxes.

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SPECIFICATION - AUDIO / VIDEO ENTERTAINMENT SYSTEM

The IP A / V encoder shall meet the following minimum performance requirements: Table 2: IP A/V Encoder Performance Requirements FEATURE

REQUIREMENT

Analog Video Input Format

Accept one or more television standard(s) listed in Note 1 below

Digital Video Input Format

Accept one or more television standard(s) listed in Note 2 below

Video Input connection

Composite, S-video, Component, and HDMI

Audio input format

Stereo (L/R) channels, HDMI

Output Video format

MPEG2 / MPEG4, 480i, 480p, 576i, 720p, 1080i, 1080p IP packets

Output Audio Format

16 bit stereo at 192 / 224 / 384 kbs

Output Audio/ Video Connection

RJ-45, 100M bps

Dimensions

483 mm rack mountable

Note: (1)

Major worldwide analog television standards include, but not limited to, the following: PAL B, PAL G, PAL H, PAL I, PAL M, PAL N, NTSC M, SECAM B, SECAM D, SECAM G, SECAM H, SECAM K, SECAM K1, SECAM L, etc.

(2)

Major worldwide digital television standards include, but not limited to: ATSC, DVB, DMB, ISDB, etc.

5.2

MIDDLEWARE The middleware is the software that runs on a PC server. It controls the operation of the IPTV system. Its main features include the following: 

Receive TV programs, video links, free-on-air programs, and other video / audio inputs from the encoders and store in IPTV system.



Distribute IPTV services to users (Content navigation).



Provide interface to feature movies, news text links, and digital media files for redistribution to users.



Subscriber Management



Provide local and remote access to administrators for system configuration and define user requirements.



Receive user command inputs from set top boxes and process information accordingly.

The middleware also acts as the interface to the follow software and hardware:

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5.3

SPECIFICATION - AUDIO / VIDEO ENTERTAINMENT SYSTEM



Electronic Programming Guide (Software)



Digital Rights Management(Software)



Digital Signage (Software)



Video-on-Demand (Software)



Asset Management (Software)



End user Set Top Boxes



Storage media that contains feature movies and other video contents.



Interface to PAGA system for muting audio

ELECTRONIC PROGRAMMING GUIDE The IPTV system shall provide an Electronic programming guide (EPG). The guide shall provide a digital guide to scheduled broadcast television displayed on-screen with functions allowing a viewer to navigate, select, and discover content by time, title, channel, genre, etc. by use of their remote control.

5.4



It shall present a grid based programming data for each channel for 14 days in advance in half hour increments.



It shall also provide a function to navigate through an EPG on a receiving device, so users can see more information about the current program and about future programs.



When EPGs are connected to personal video recorders the system shall provide the viewer information to plan his or her viewing and record broadcast programs to a hard disk for later viewing.



Typical elements of an EPG shall be comprised of a graphical user interface which enable the display of program titles, descriptive information such as a synopsis, actors, directors, year of production, and so on, the channel name and the programs on offer from sub channels such as video-on-demand (VoD) services, program start times, genres and other descriptive metadata.

VIDEO-ON-DEMAND (VoD) AND MUSIC-ON-DEMAND The video-on-demand and music-on-demand server allows users to watch video content on demand. It also allows users to listen to audio content on their televisions in the comfort of their rooms/cabins. Download and streaming video / audio on demand systems provide the user with a large subset of VCR functionality including pause, fast forward, fast rewind, slow forward, slow rewind, jump to previous/future frame etc. These functions are called “trick modes”. The size of the Video on Demand server depends entirely on the Company’s preferences and the amount of content they would like to store on the system. Each server shall have be capable of storing anywhere from 2TB to 32TB. When more than one server is used to store content or to provide additional streaming capacity all servers shall be capable of using load balancing or clustering. All VOD servers shall be top of the line servers. NOTE: The Video-on-demand feature broadcast the video / audio signals using LAN unicast data stream. Each VoD service wiIl require a network link form the set top box to the middleware server. It requires a tremendous amount of LAN bandwidth. Offer this

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feature only when the LAN network has sufficient spare bandwidth and has the capability to set QoS on the link. This service shall not be offered to users at the initial stages of this project. Offer the service only when the fiber backbone network is fully commissioned. 5.5

CONTENT AND DIGITAL RIGHTS MANAGEMENT (DRM) Content is digital media files to be used with the VoD system. The DRM shall allow the Company to use the Video on Demand Server to load their proprietary content, such as training videos. They DRM shall also allow for canned content from major movie studios. This will necessitate the inclusion of a DRM server. The access control mechanisms which impose restrictions on the usage of digital content. The system shall use an industry standard DRM server/solution to ensure legal usage of the digital content provided to the Company. This ensures that the Company is using the content that is purchases in accordance with the licensing terms and conditions and also makes sure that they are not violating any copyright/licensing regulations. All studios demand that the content is protected by such systems to prevent illegal copying/transferring of content.

5.6

DIGITAL SIGNAGE Digital signage is a form of electronic display that shows information, advertising and other messages. Digital signs (projected images on TV) shall be found in common areas and/or private environments, such as cafeterias, crew cabins, etc. The digital signage system shall be capable of displaying dynamic content, over static signs where the content can be exchanged more easily, animations can be shown, and the signs can adapt to the context and audience, even interactively. The components of a typical digital signage installation shall include one or more display screens, one or more media players, and a content management server. Sometimes two or more of these components are present in a single device but typically there is a display screen, a media player, and a content management server that is connected to the media player over a network. One content management server may support multiple media players and one media player may support multiple screens. The digital signage software shall meet the following requirements: 

Product shall be versatile and flexible enough to create unlimited multi-zone screens that allow users to create design layouts that best fit the customer.



Product shall have Unlimited layering capabilities



Product shall allow transitions between items and full pages - Includes Wipes, Cubeeffects, Pushes, Dissolves and many more



Product shall have unparalleled creativity and composition for designing sophisticated text and graphics



Product shall offer drag-and-drop WYSIWYG design and creation



Product shall provide graphics support for third parties (After Effects Plug-In)

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SPECIFICATION - AUDIO / VIDEO ENTERTAINMENT SYSTEM



Product shall allow import and display of static graphic files (PSD, BMP, GIF, JPG, PCX, PNG, TGA, TIF…)



Product shall enable object/logo animation with key frames, individual character animation, soft shadows and motion effects



Product shall have pre-loaded templates, backgrounds and design elements.

SET TOP BOX (INTERFACE TO TELEVISION) A Set top box is a device that connects an external source of signal to a television set. The set top box is turning the signals into video signals and then displayed on the television screen. Television outlets shall be mounted (flush or surface mount depending on wall construction) onto the wall in close proximity to the television installation location. The connector for the television outlets shall be consistent with connectors used at the installation location and shall have an impedance of 75 ohms.

5.8

TELEVISION SETS Flat panel LED Multi-System Television sets shall be provided, but not limited to common areas, rest areas, cafeterias, and quarters. The television sets shall meet the following specifications, as a minimum:

5.9



Size: – Minimum of 915 mm for common areas, 483 mm for quarters.



Video Decoding: - MPEG2, MPEG4, ATSC, DVB, DMB, ISDB



Audio Encoding: - Advance Audio Coding (AAC) (128 to 512bps); MPEG-1 layer 2 (64-384 kbps)



Output format: - 480i, 576i, 720i, 720p, 1080i, 1080p



Video Input Connectors:- HDMI, Component, S-video, Composite



Audio Input Connectors: - HDMI, L / R RCA.



Power: - 90 – 240 VAC



Mounting: - Wall mount or free-standing



The television units at the facility entrances and helicopter / airport waiting areas shall be equipped with VHS / DVD/ VCR units for viewing safety training videos.

INTERFACE TO PUBLIC ADDRESS AND EMERGENCY ALARM SYSTEM [S] In the event the entertainment headend system services locations, which are also serviced by the public address and general alarm system, the headend system shall be interfaced to the public address and general alarm system in a manner to ensure muting of the entertainment system audio during an emergency alarm or emergency broadcast. Full audio from the entertainment shall be immediately restored upon completion or discontinuance of the emergency broadcast and/or emergency alarm. Reference project specification No. IQWQ-FTTSPDS-00-310304 – “Public Address/General Alarm System with Page / Party”, as appropriate.

5.10

IPTV STRUCTURED CABLING AND FIBER BACKBONE A cable distribution system shall be installed to distribute television signals to television drop points throughout the facility. Two types of cable distribution systems exist: Copper twisted pair cable distribution system and a hybrid fiber copper twisted pair cable distribution system.

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Regardless of the type of cable distribution system deployed, the entire cable distribution system shall be designed to provide adequate network bandwidth to every end-user subscriber point (television outlet). The entire cable distribution system shall be designed to deliver error free packets to each television unit The IPTV structured LAN cabling shall be constructed in a similar manner as the rest of the company’s LAN network. The systems should be constructed using the appropriate ITU standards for copper twisted pair and fiber optics networks. Refer to project specification No. IQWQ0FT-TSBDS-00-310101 – “Upstream Structured cabling System” for LAN cabling requirements. The fiber optics backbone cable network shall interconnect the middleware distribution LAN network to all areas of the facility end-user subscriber points. Refer to project specification No. IQWQ-FT-TSBDS-00-0003. Single mode fiber-optics cable shall be used throughout the sites. Each backbone single mode fiber core shall be terminated, tested, and certified for 10GBase-LR transmission between nodes. The structured CAT-6 cable shall be certified for 100 / 1000 BASE-T transmission between the LAN switches and the set top boxes. 6

ACCEPTANCE TESTS

6.1

FACTORY ACCEPTANCE TESTING (FAT) [O] Factory testing, if required, is normally conducted at the manufacturer facility and just prior to shipping. Company reserves the right to witness the equipment test or to select a third party to witness the test in their behalf. [A] A FAT procedure shall be developed that identifies specific performance parameters and interfaces to be checked. The FAT procedure shall be submitted to Company for approval 30 days prior to scheduling and execution of the FAT. Upon failure of any FAT procedure, Company reserves the right to terminate the FAT and reschedule. [A] A FAT report shall be submitted to Company for approval and a record of the FAT should be kept for handover documentation.

6.2

SITE ACCEPTANCE TEST (SAT) [O] The complete system delivery includes the integration of end-user equipment with the delivered system. Contractor shall be responsible for the complete integration of all Company services and shall ensure compatibility with all Company equipment. Contractor shall rectify any interface and/or cabling issues. Site Acceptance Testing (SAT) shall take place after all equipment is installed and interfaced with Company end-user equipment. The following is required: 

Vendor shall ensure final installation complies with Manufacturer recommended design.



A SAT procedure shall be developed with specific performance parameters and interfaces being checked and submitted to Company for approval 30 days before scheduling and executing the SAT.

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 6.3

SPECIFICATION - AUDIO / VIDEO ENTERTAINMENT SYSTEM

A SAT report shall be submitted to Company for approval.

WARRANTY

Warranty should be considered when selecting vendors and manufacturers. requirements may be dependent on the size and location of the project. 7

Warranty

DOCUMENTATION AND DRAWINGS [M] Drawings and documentation are critical to maintaining and operating equipment. Depending on project requirements, electronic format AutoCAD files should be provided that will allow for updates without have to re-create the drawings. Refer to project specification No. IQWQ-FT-BSPDS-00-010103 – “Specification For Drafting requirements” on project documentation. [M] Documents and drawings that shall be provided for audio/video entertainment system installation shall include, but are not limited to, the following: 

General equipment arrangements



System block diagram(s)



System termination details



Equipment layout



Installation procedures



Cable routing



All engineering calculations



Site layout



Wiring diagrams/ schematics



Cable schedule



Plot plan



Commissioning and/or pre-commissioning - Turn Over and Commissioning Package ’ - Boundary drawings



Support systems—dry air, UPS, and/or batteries



Preventive maintenance schedules



Equipment operations and maintenance manuals to be provided at engineering review



Proposed spare parts listing for system



Portable document format (PDF) files should be published and searchable. Documents cannot be scanned.

8

SUPPORTING EQUIPMENTS

8.1

TEST EQUIPMENT [A] [M] Maintaining equipment requires that operational parameters are tested routinely. At the Commissioning and SAT, the initial parameters will be recorded and they will be retested periodically according to established industry and Company preventive maintenance schedules.

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This information is generally recorded and turned over to the Operating Company during turnover and acceptance. Depending on the size of the project, the following equipment and materials could be required to test and maintain the audio/video entertainment system:

8.2



Spectrum Analyzer capable of spanning the broadcast, and satellite frequency bands



Watt/Power meter



Digital Multimeter(s)



Oscilloscope



Transmission line analyzer



Network Analyzer

SPARES [A] [M] Project sparing for this project has generally been defined into two categories: 

Operational Spares: Operational Spares have historically been defined as spares to replace items that could be expected to fail within a two year period after installation.



Start-Up Spares: Start-Up Spares are generally smaller amounts of spare equipment to replace equipment that may have been damaged during shipment or failed upon installation.

In this project, a complete list of spares should include not only Manufacturer's recommended spares, but additional equipment that may be deemed necessary to bring the system back into operation in a timely manner. Depending on the country of Operation, spare equipment and ancillary material may experience significant shipping delays caused by the remoteness of the area or countries where it is known to have long lead time customs delays. These factors need to be considered when developing the sparing strategy. A set of start-up spares shall be handed over to the Company before system commissioning. 9

SAFETY AND SECURITY

9.1

SAFETY [S] All communication systems including antennas shall be installed in non-hazardous areas. Refer to project specification No. IQWQ-FT-ESPDS-00-160101 for additional information on site classification. Tower climbing has been noted by OSHA as one of the most dangerous jobs in the industry with the most recorded safety incidents. Tower climbers must be experienced and some countries require tower climbers to be certified. Double lanyard safety harnesses are required for tower climbers. When a tower climber is on the tower for any work activity, a minimum of one person is required on the ground as a safety monitor. The activities to be performed on the tower will dictate how many men should be on the tower as well as the number of ground support staff. Personnel Safety Depending on the in-country requirements, some equipment may require certification that the RF energy emitted is within acceptable limits. Certification may be required via an independent study from a third party contractor/consultant. For further information on radiation hazard see project specification No. IQWQ-FT-ESPDS-00-310303.

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9.2

SPECIFICATION - AUDIO / VIDEO ENTERTAINMENT SYSTEM

SITE SECURITY Telecommunication sites and or equipment rooms generally require two forms of physical security when gaining access to equipment. The physical security of the main bldg or room door can be considered as one form of security. A second form of security within a locked building or closet is a locked telecom cabinet. Refer to project specification No. IQWQ-FT-TSPDS-00310201 for additional information. In areas where telecom buildings are installed in remote areas, a security fence has been a project standard and serves as an additional means of physical security.

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ATTACHMENT: PURPOSE CODE DEFINITIONS CODE

DESCRIPTION

A

Assigned to paragraphs that require approval from the Owner's Engineer before the work may proceed or the design is finalized.

C

Assigned to paragraphs whose primary purpose is reduced costs. Reduced cost in this context refers to initial investment cost and does not include life cycle cost considerations. Life cycle cost considerations are captured under reliability, maintainability, or operability purpose codes.

E

Assigned to paragraphs whose primary purpose is driven by environmental considerations. Environmental considerations typically include specifications intended to protect against emissions/leakage to the air, water, and/or soil. Deviations from the specifications contained in such paragraphs require formal review and approval according to local environmental policy.

I

Assigned to paragraphs that provide only clarifying information, such as Scope statements, definitions of terms, etc.

M

Assigned to paragraphs whose primary purpose is to provide for maintainability of equipment or systems. Maintainability provisions are those that facilitate the performance of maintenance on equipment/systems either during downtimes or during onstream operations.

O

Assigned to paragraphs whose primary purpose is to assure operability of equipment or systems. Operability is the ability of the equipment/system to perform satisfactorily even though conditions are off-design, such as during start-ups, process swings, subcomponent malfunction, etc.

R

Assigned to paragraphs whose primary purpose is to improve or assure the reliability of equipment or systems. Reliability is a measure of the ability of equipment/systems to operate without malfunction or failure between planned maintenance interventions.

S

Assigned to paragraphs containing specifications/guidance where the primary purpose is the avoidance of incidents impacting personnel safety, operational safety, and the public in general and/or involving responses to emergency situations. Any deviation from the specifications contained in such designated paragraphs requires formal review and approval according to local safety policy. Personnel Safety:

Refers to incident-related personnel injuries or illness, e.g., burns, cuts, abrasions, inhalation of or exposure to dangerous substances, etc., that could result in medical treatment, restricted work, lost-time incidents, or fatalities.

Operational Safety:

Refers to the prevention and control of process releases, fires, and/or explosions that could result in damage to equipment, process disruption, or personnel injury or illness.

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