Transcript Chapter03
Voice Over Internet Protocol (VoIP) Presentation 3 – VoIP: An Overview Copyright © 2006 Heathkit Company, Inc. All Rights Reserved Objectives At the end of this presentation, you will be able to: 2 Define signaling, encoding, transport, and gateway control as they apply to VoIP. Identify the protocols associated with signaling, encoding, transport, and gateway control in VoIP. Define jitter, latency, and packet loss. Describe techniques designed to overcome these problems. 3 Levels of VoIP to Computer – One softphone connects to another directly over the Internet. Computer Via a VoIP Service Provider System – An organization acts as its own VoIP Service provider Enterprise 4 Computer to Computer VoIP VoIP over Instant Messaging – MSN Messenger and Windows Messenger Microsoft AOL – AIM Yahoo! – Yahoo! Messenger Google – Google Talk 5 6 VoIP via a Service Provider Great for homes and small businesses. Monthly fee or per call fee. Provide services which are not available or cost extra through PSTN. Generally better quality than IM. 7 VoIP Providers AT&T Comcast Communications Cablevision Time Warner Vonage Cox Communications Verizon SBC Communications EarthLink Bell South Nortel Quest Communications 8 Typical Services Provided Connect to PSTN Call Waiting Select your Area Code Call Forwarding Caller ID Voice Mail Online Account Management Unlimited long Distance Conference Calls 9 Vonage The largest VoIP Service provider Requires a broadband connection to the Internet. Signaling Protocol is SIP. 10 Soft-phone 11 Analog Telephone Adapter IP Phone Analog Phone 12 Enterprise System Proxy Server IP Phones Internet IP PBX Admin Server PSTN VoIP to PSTN Gateway 13 Major VoIP Issues Signaling Voice Coding Packet Delivery Gateway Control 14 Signaling Find the called party. Determine the status of the called party – busy or not. Create and manage calls. 15 Voice Coding Voice is inherently analog. Microphones produce an analog signal. Speakers require an analog signal to reproduce voice. The Internet requires digital data packets. The conversion of voice to digital data packets at the transmitting end and the conversion of the digital data packets back into voice at the receiving end. 16 Packet delivery Moving the voice data packets to their intended recipient while ensuring acceptable voice quality. Rearranging the order of the received data packets back to the order in which they were transmitted. Controlling the rhythm of the packets. 17 Gateway Control A gateway is a device that converts from one protocol to another. Common H.323 gateway conversions include: to SIP and vice versa VoIP to PSTN VoIP to ATM VoIP to ISDN 18 VoIP creates two paths within the IP network. Path – Carries information needed to establish and maintain the media path. Signaling Path – The path used by the voice packets. Media 19 VoIP Protocols Path protocols – SIP, H.323, MGCP, and Megaco/H.248 Signaling Path protocol – Real Time Protocol (RTP) Media 20 VoIP Challenges Latency Jitter Packet loss 21 Latency The delay between the instant a voice fragment is produced and the later instant at which the listener hears it. The amount of time that the packet spends in the network. Latency greater than 150 milliseconds becomes noticeable and may degrade voice quality. 22 Contributors to Latency Encoder delay Transport Jitter delay Buffer delay Decoder delay 23 Jitter Changes in latency from one packet to the next. Packets may take different paths with different overall delays. 24 Packet Jitter B Internet A 25 Jitter Buffer 26 Lost Packets Ignore the problem – “transmit” an instant of silence. Repeat the last packet transmitted. Predict the contents of the lost packet by examining the contents of previous packets. Insert an instant of noise. 27 Voice Over Internet Protocol (VoIP) End Copyright © 2006 Heathkit Company, Inc. All Rights Reserved