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Voice over IP

Voice over IP. By : Adiel AKPLOGAN CAF E Infor matique S. A. - TOGO E-mail: adiel@akplogan.net - Web: http://www.akplogan.net. AFNOG 2001 Accra – Ghana 12 Mai 2001. Topics. Definition Standard Requirement QoS Application CAFEnet S.A. (Togo) exemple . Introduction.

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Voice over IP

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  1. Voice over IP By: Adiel AKPLOGAN CAFE Informatique S. A. - TOGO E-mail: adiel@akplogan.net - Web: http://www.akplogan.net AFNOG 2001 Accra – Ghana 12 Mai 2001

  2. Topics • Definition • Standard • Requirement • QoS • Application • CAFEnet S.A. (Togo) exemple

  3. Introduction • Concern about reduction of communication coast. Voice, Fax and Data integration become a challenge and priority for many network manager. • Telecommunication deregulation and Multi-service access network development allow this challenge to be achieve. • Today voice over packet network (ATM, Frame Relay and IP) is the one most growing aspect of Multi-service access network

  4. VoIP System Model • Voice and signaling transmission using packet network (IP) • ITU standard for signaling Model • H.323 ( ITU )- Packet-based Multimedia communication system. • SIP (IETF) – Session initiation protocol • The voice system resulting from these two standard follow a common Model

  5. VoIP System Model • A packet voice system like VoIP follow this model. • A packet network (Internet in most case) • Voice agent at edge of the cloud. Convert voice information from it traditional telephony form to a suitable form for packet transmission. • the packet are send to another voice agent at the call destination.

  6. VoIP system model

  7. VoIP System Model • Two issue from the previous diagram • Voice coding: Voice Packet, Packet Voice • Signaling: who is called and where is the called party on the network?

  8. The two models in brief

  9. Architecture

  10. Communication

  11. VoIP Addressing • As Internet communication is based on IP address (layer 2), every equipment that want to communicate should have an IP address. For VoiP, the voice interface appear as additional IP host. • Translation of dial digits from the PBX to an IPhost address is performed by the dial plan mapper.The destination telephone number, or some portion of the number, is mapped to the destination IPaddress.

  12. Voice packet routing and Delay • VoIP take advantage of all strong and sophisticate routing protocols of IP (including best route calculation…) • But due to the way IP packets are send through the network, the big challenge is the Latency or delay that cause echo and talker overlap.

  13. Voice packet routing and Delay • Source of delay include: • Accumulation delay:caused by need to collect a frame of voice samples to be processed by the voice coder (from some microsecond to many milliseconds. • Algorithmic Delay:caused by specific voice encoding delay. • Processing delay:result from the two previous delay plus collecting the sample in to packet for transmission. • Network delay:Processing that occurs as packets are sent across a network.(from protocol, medium, and buffer use to remove packet jitter on the receive side)

  14. Voice packet routing and Delay • Echo: is generated toward the packet network from the telephone network…as it always greater than 50 ms, it is not acceptable for good audition. • Jitter:is the variable inter-packet timing cause by the fact that packets do not all cross the network at the same speed. • Lost packet:Under peak load and congestion, voice frame are dropped at the same rate as data frame.

  15. VoIP Signaling • Three distinct area: • Signaling from PABX  router • Network seize the PABZ with any of the signaling used to seize a trunk (as the local network appear to the BABX as a trunk) – FXS or E&M. • Signaling from Router  router • Dial plan Mapper. • Signaling from Router PABX • Line seizure signaling.

  16. VoIP application • In today’s networking, there are several attractive alternatives both to conventional public telephonyand to leased lines. Among the most interesting are networking technologies based on a differentkind of voice transmission, called packet voice and in our case Voice over IP. • VoIP can be used in two broad context differentiated by geography or by the type of users to be served.

  17. VoIP application • Within a national administration or telephony jurisdiction, • to support its own voice calling among its own sites. • to support the activities of a single company — to connect two or more company locations in multiple countries — • to connect public calls within a company, the packet voice provider is technically providing a local or national telephone service and is subject to regulation as such.

  18. VoIP application • Between different administration or telephony jurisdiction • to connect public calls between countries, the packet voice provider is subject to the national regulations in the countries involved and also to any treaty provisions for international calling to which any of the countries served are signatories. • Be aware of the valid law applicable in your country until setting up VoIP application to avoid any inconvenience.

  19. VoIP application • Example: CAFE Informatique & Telecommunications S.A. • Two application: • International Communication • Call center • 30 local worker. • Tele-marketing for America and Canadian company • Data scramble for foreign company

  20. VoIP application

  21. VoIP • Question?

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