Fundamentals Series Standards. Polycom, Inc. All rights reserved.

Similar documents
Level 2 Development Training. Level 2 Development Training. Level 2 Development Training. Technical Overview

Level 1 Technical. Networking and Technology Basics. Contents

Introduction and Comparison of Common Videoconferencing Audio Protocols I. Digital Audio Principles

Video Conferencing Glossary of Terms

Alexandre Weffort Thenorio - Data. IP-Telephony

Video Conferencing Standards

District of Columbia Courts Attachment 1 Video Conference Bridge Infrastructure Equipment Performance Specification

Video Conferencing Protocols

HISO Videoconferencing Interoperability Standard

Video Conferencing. Femi Alabi UNC-CH - Comp 523 November 22, 2010

An Introduction to VoIP Protocols

Cisco CME Features and Functionality

Polycom Competitive Q1 08

Video over IP WHITE PAPER. Executive Summary

VIDEOCONFERENCE. 1 Introduction. Service Description Videoconferece

VoIP QoS. Version 1.0. September 4, AdvancedVoIP.com. Phone:

How To Understand The Technical Specifications Of Videoconferencing

Video conferencing. Introduction Standards Products Internet telephony Computer Telephony Integration (CTI) Petri Vuorimaa 1

VIDEO CONFERENCE. Alessandro Benni & VIDEO COMMUNICATIONS. Bologna, Videorent srl - Video & Multimedia Branch

High Definition Video Conferencing End-to-end. March 2006

ARTICLE. Sound in surveillance Adding audio to your IP video solution

Need for Signaling and Call Control

Standard encoding protocols for image and video coding

ATA: An Analogue Telephone Adapter is used to connect a standard telephone to a high-speed modem to facilitate VoIP and/or calls over the Internet.

Integrate VoIP with your existing network

GTS VIDEOCONFERENCE. Powered by: Valid from: 1 June 2014

QualiVision. RADVISION s improved packet loss video compensation technology. A RADVISION White Paper

The MOST Affordable HD Video Conferencing. Conferencing for Enterprises, Conferencing for SMBs

The MOST Affordable HD Video Conferencing. Conferencing for Enterprises, Conferencing for SMBs

VIDEOCONFERENCING. Video class

Voice over IP Protocols And Compression Algorithms

Information Paper. FDMA and TDMA Narrowband Digital Systems

Videoconferencing in Crossborder Court Proceedings. Facilitating the Use with Documentation

Receiving the IP packets Decoding of the packets Digital-to-analog conversion which reproduces the original voice stream

(Refer Slide Time: 4:45)

HIGH-DEFINITION: THE EVOLUTION OF VIDEO CONFERENCING

SingTel WorldConference Multipoint Video Conference

How To Pass Polycom Cvvv

An Introduction to Voice over the IP. Test1 Pool Questions

Internet Desktop Video Conferencing

Selecting the Right Digital Surveillance Camera. A 3xLOGIC Discussion Guide

November The Business Value of SIP Trunking

Applications that Benefit from IPv6

Video Conferencing Unit. by Murat Tasan

Communication and Collaboration Technologies Glossary

Software Engineering 4C03 VoIP: The Next Telecommunication Frontier

How To Save Money On An Ip Trunking (Ip Trunking)

ZyXEL V100 Support Notes. ZyXEL V100. (V100 Softphone 1 Runtime License) Support Notes

The MOST Affordable Video Conferencing. Conferencing for Enterprises, Conferencing for SMBs

Tech Trend. Cloud-Based Videoconferencing Solutions

VoIP Glossary. Client (Softphone client): The software installed in the userâ s computer to make calls over the Internet.

High Definition (HD) Technology and its Impact. on Videoconferencing F770-64

VA Enterprise Standard: VIDEO CODEC/RECORDING

Analog-to-Digital Voice Encoding

Glossary of Terms and Acronyms for Videoconferencing

Grandstream Networks, Inc.

Best Practices for Role Based Video Streams (RBVS) in SIP. IMTC SIP Parity Group. Version 33. July 13, 2011

Cisco Unified Videoconferencing 3522 Gateway and Unified Videoconferencing 3527 Gateway

Cisco vs. Polycom Comparison

Networked AV Systems Pretest

The benefits need to be seen to be believed!

A Comparative Study of Signalling Protocols Used In VoIP

Contents Introduction Why Fax over IP? How Real-time Fax over IP works Implementation with MessagePlus/Open Summary. About this document

TIME-SAVING VOIP FEATURES YOUR BUSINESS NEEDS

Cisco Unified IP Phone 7962G and 7942G

Federal Telepresence: Dispelling The Myths

Multimedia Conferencing Standards

Cisco Unified Videoconferencing 3515 Multipoint Control Unit

SIP Trunking and Voice over IP

The Emerging Market for Collaborative Applications

Table of contents: CMA Desktop video conferencing. Video-conference Equipped Levin Hall Rooms. Portable Video System. Web Streaming Server Options

Date of Test: 5th 12th November 2015

Enterprise Collaboration 2011

TECHNICAL CHALLENGES OF VoIP BYPASS

CTX OVERVIEW. Ucentrik CTX

Will Your Next Video Bridge Be Software-Based? Examining a Next-Generation Software-Based Video Conference Server

The Advantages of a Video Conferencing System

SIP based HD Video Conferencing on OMAP4

Mobile Wireless Overview

AT&T Connect Video Conferencing Functional and Architectural Overview. v9.5 October 2012

How To Set Up An Ip Trunk For A Business

Administering Avaya Video Conferencing Solution Advanced Topics

Desktop Videoconferencing

VoIP for Radio Networks

Goal We want to know. Introduction. What is VoIP? Carrier Grade VoIP. What is Meant by Carrier-Grade? What is Meant by VoIP? Why VoIP?

APTA TransiTech Conference Communications: Vendor Perspective (TT) Phoenix, Arizona, Tuesday, VoIP Solution (101)

SIP Forum Fax Over IP Task Group Problem Statement

White Paper July 2010 Desktop Video Conferencing

How To Understand How Bandwidth Is Used In A Network With A Realtime Connection

White Paper. MXM: SIP Support. Delivering SIP H.323 Convergence and Co- Existence Using a Video PBX Architecture

Master Kurs Rechnernetze Computer Networks IN2097

AVer Video Conferencing Network Setup Guide

Curso de Telefonía IP para el MTC. Sesión 1 Introducción. Mg. Antonio Ocampo Zúñiga

The Business Value of SIP Trunking

Cuyahoga County Videoconferencing Justice Bridge

4. H.323 Components. VOIP, Version 1.6e T.O.P. BusinessInteractive GmbH Page 1 of 19

Iowa Communications Network Page 1

An Introduction to Videoconferencing and Distance Learning. Chris McCuller Valdosta State University

UC-One 2014 R Frequently Asked Questions

Internet Technology Voice over IP

Transcription:

Fundamentals Series Standards Polycom, Inc. All rights reserved.

Fundamentals Series Signals H.323 Analog vs. Digital SIP Defining Quality Standards Network Communication I Network Communication II Polycom, Inc. All rights reserved. 2 Welcome to Standards, the fourth module in the Polycom Fundamentals series. This module is approximately 8 minutes long.

Introduction Polycom, Inc. All rights reserved. 3 In order to understand how videoconferencing works it s important to understand the underlying technologies at work behind the scenes. In this short module we will talk about standards, what they are and how we use them.

Standards Polycom, Inc. All rights reserved. 4 When we talk about videoconferencing, we often discuss the standards that systems support and describe endpoints and infrastructure as being standards-based. So what are standards and what are they good for? Standards are agreed upon processes and configurations that allow different manufacturers systems to talk to each other. And how does it become a standard? If we talk about a company developing their own software which is not compatible with anyone else s, we call it proprietary. This is the most common way of a feature appearing in software, and logically so, as if I want to see a 22kHz audio codec and if no-one else has done it, I will need to do it. But then what? I don t want to be the only person who can use it, after all. What happens next is that once I have written my feature and am ready and willing to share it, I submit it to the body which holds all the standards for that technology (we ll come to this next). They will review it, and if they confirm that it will do what I say it will and work in the way I say it can, it can be ratified (approved) and given a name which follows their convention. Once that happens, it becomes a standard, and the code becomes available for use. That is, of course, a very simplified version, but you get the idea.

Standards Bodies Polycom, Inc. All rights reserved. 5 There are two primary organizations that we re concerned with when discussing standards. The International Telecommunications Union (ITU) develops standards for the telecommunications industry. They created the first standards for use in videoconferencing when it was only really available over ISDN. More recently, the Internet Engineering Task Force (IETF) has become important because it is responsible for standards relating to the internet and networks.

Umbrella Standards Polycom, Inc. All rights reserved. 6 Umbrella standards are standards which have other standards under them. The ITU is responsible for the H.320 umbrella standard that governs ISDN videoconferencing and the H.323 umbrella standard that is used for IP-based networks. The IETF has created the SIP protocol for multimedia, that is video, audio and data devices for only IP-based networks. SIP is not an umbrella standard, and we ll talk about that further a little later on. You can think of these three standards as the languages that a videoconferencing device can speak.

H.320 ISDN Polycom, Inc. All rights reserved. 7 Let s start off with the H.320 standard. This is the ITU standard developed for multimedia transmission across ISDN networks. It includes within it several other standards that have to do with how the call connection works, how the video and audio are handled as well as how the data is bundled up and sent across the network. Each of these areas is included under the umbrella standard H.320. We will not look specifically at the mechanics of ISDN videoconferencing further in this training series.

H.323 IP Network Polycom, Inc. All rights reserved. 8 Let s look now at the standards for IP networks. H.323 is the ITU standard developed for multimedia transmission across IP networks. It also includes within it several other standards that have to do with how the call connection works, how the video and audio are handled as well as how the data is bundled up and sent across the network. Each of these areas is included under the umbrella standard H.323. We will take a look now at some of the most commonly used video and audio codecs. These are all supported under both H.320 and H.323 standards.

Video codecs Polycom, Inc. All rights reserved. 9 Under the H.320 umbrella come three video codecs we commonly see which were mentioned briefly in the last module H.261, H.263 and H.264. We will look at these again in a little more detail here.

H.261 Polycom, Inc. All rights reserved. 10 H.261 recommends picture refresh rates at 7.5, 10, 15, or 30 frames per second. The minimum recommended for full motion video is 24 fps, which is what motion pictures use. Below that and the motion starts to look choppy. Supported resolutions are CIF and QCIF (which has a quarter of the resolution of CIF).

H.263 Polycom, Inc. All rights reserved. 11 H.263 and H.264 keep the recommendations from H.261 of 7.5, 10, 15 and 30 frames per second. But it also adds recommendations to allow lower frame rates for certain uses, like graphics when showing content. So we can also do 1, 2, 3, 4 or 5 frames per second for those images. This gives a wider flexibility to have the most efficient bandwidth usage for each call, especially when combined with the added resolutions in these codecs. H.263 can support all the resolutions H.261 supports, with the addition of 4CIF.

H.264 Polycom, Inc. All rights reserved. 12 H.264 is a newer codec which supports many resolutions up to and including 1920 x 1080 (HD 1080) at 30fps.

Audio Codecs Polycom, Inc. All rights reserved. 13 When comparing audio codecs, important factors are the frequency in Hertz which gives us the range of frequencies captured from the analog waveform, and the bandwidth in bits per second which tells us how many bits per sample are needed to transmit the signal. So in the audio corner we have G.711, the first digital audio codec. G.711 captures 4kHz of the frequency range with no compression, using 64kbps. It is the base standard an endpoint must have to be compliant with the ITU. Following this, more advanced codecs have been added over time. For example, G.722 captures 7kHz using 64kbps, G.728 compresses a 4kHz frequency at a much smaller 16kbps, G.729 takes that down even further to only 8kbps, and there are many more. Improvements have also been made to existing codecs. For example, G.722.1 gives a 7kHz bandwidth but uses 24 or 32 kbps. Later on, this was developed further; G.722.1C gives us 14kHz audio with 24, 32 or 48kbps. Just like video codecs, these come under the H.320 umbrella but are commonly used in IPbased conferencing also.

SIP IP Network Polycom, Inc. All rights reserved. 14 Now let s move onto SIP. SIP stands for Session Initiation Protocol, and is the more recent IETF signaling protocol for making voice and video transmissions across IP networks. SIP was designed to work with other protocols already in existence, like many of the IETF protocols. Because of this it can interact with other IP standards to perform tasks, which is part of why it doesn t have to be an umbrella standard to control the process of video and audio sessions on the network. The two modules following this one will take a more in-depth look at both H.323 and SIP to explain these two commonly used standards further.

Thank You Polycom, Inc. All rights reserved.

2024 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information