IP Telephony. Operator Framework Technology Framework Quality of Voice over IP Threats and Opportunities

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Transcription:

IP Telephony Operator Framework Technology Framework Quality of Voice over IP Threats and Opportunities Raimo.Kantola@hut.fi http://keskus.hut.fi/tutkimus/ipana/paperit 1 Conclusions IP Telephony together with growth of Internet drive Integration of IP to ISDN/PSTN/GSM networks IP telephony introduces a rich set of new attractive services Collision of IP and Telephony is a major technology and market shift and creates industry upheaval among operators and vendors 2

Operator s Competitive Advantage is a three legged stool 3 Operator s KSFs are the customer relationship, service session control and network coverage Operator Service Provider Customer Network Provider 4

Key Issues to an Operator in IP Telephony are Is it a threat to Key Success Factors? How to balance SP vs. NP functions? When is the right time-to-market? How does IP Telephony/IP Voice influence revenues? How to build a Quality Offering? 5 Network Development, Architecture and Standards form the Technology Framework Is IP Telephony on the Technology trend or does it make you loose focus? How does Network Architecture change? How does Service Architecture change? What are the key standards? 6

Data traffic overtakes voice. The future WAN is optimized for Data not Voice. IP based Network Packetization point moves closer to the customer We move from Circuit Switching to Packet Switching Starting point for building the future Packet Net is the Internet Each deployment step pays for itself. 7 IP Telephony is like a Moon Rocket ( analogy by Tom Evslin, ITXC) Rich Service set Engineering Economics - compression, innovation International Calling based on Arbitrage 8

Network turns Broadband Integration of Voice to Data networks Corporate network Backbone SDH, WDM xdsl CATV modems (ATM) Access IP Voice and IP Telephony accelerate the development! 9 By Service Architecture Development Operators pursue Service Differentiation Top-down TINA, ATM Intelligent Network Internet/ ISDN Conversion PSTN Bottom-up 10

IP Telephony Standardisation takes place on many fora ITU-T - H.3xx protocols ETSI - TIPHON project - Telecommunications and Internet Protocol Harmonisation over Networks MMUSIC - WG of the IETF (Multiparty Multimedia Session Control) PINT and IPTEL - WGs of the IETF VOIP - Voice over IP by IMTC - Int l Multimedia Teleconferencing Consortium 11 TIPHON Specifies four Service Scenarios Phase 1: IP Terminal initiated Call IP based Network Gateway PSTN/ISDN GSM E.164 numbering Phase 2: PSTN/ISDN/GSM initiated Call E.164 numbering ISDN GSM Gateway Gateway IP based Network ISDN GSM E.164 numbering Phase3: IP transit Calling Phase 4: PSTN transit Calling 12

Gatekeepers and Gateways are key components for Interworking Intranet H.323 Interworking Functions Gatekeeper Gateway UNI- DSS1 ISDN NNI PSTN Internet H.323 Interworking Functions Gatekeeper NNI NNI GSM Gateway 13 SIP - Session Initiation Protocol competes with H.323 Redirect Server Client Proxy server User Agent SIP comes from MMUSIC/IETF SIP is based on HTML/HTTP SIP is open and modular SIP is designed for the Global Internet 14

PINT - IETF:n WG integrates WWW with Voice Services Internet Click-to-dial, Click-to-fax Click-to-fax-back, Voice-access-to-content Content Provider s WEB-Server SSTP - Service Support Transfer Protocol SN or SCP SMS SSP- Service Switching Point PSTN/ISDN subscriber GSM subscriber 15 SCTP - Simple Computer-Telephony Protocol is the CTI initiative Client Internet Server lines SCTP SCTP runs on TCP/IP:n and is based on HTTP/HTML Includes first and third party services SCTP can manage Voice Mail Users can manage their Service profiles Targets Corporate Call Centers 16

IP Voice in Ethernet - Delay is in the Workstation! Function Generator Voice sender - SUN Ultra - Nevot Delay meter (7+(51(7 RADCOM LAN analyzer - analysis - load generator Voice receiver - SUN Ultra - Nevot - Nevot debug - RTP dump Receiver timestamps Terminal delay: Delay HW 8.9 ms VoIP Client 103.9 ms End-to-end delay Packet lenght Delay 0.02 s 104.5 ms Difference=Network Delay! 17 End-to-end delay IP forwarding 116,2 ms IP switching 113,8 ms Network (ping) both 1-2 ms VoIP over IP switching D (ms) 120 100 80 60 40 10BaseT IP Switch Gateway ATM 155Mbit/s ATM Switch 20 0-20 0 % 7 % 14 % 21 % 28 % 35 % 42 % 49 % 56 % % 63 % 70 % 77 % 84 % 91 % 98 % % D < n ms Voice sender - SUN Workstation - Nevot - flood ping - kilent-server 4 Delay meter IP switch processor Voice receiver - SUN Workstation - Nevot - Nevot debug - RTP dump Receiver timestamps 18

Packet spacing difference in a Campus Network 100 10 1 D(ms) 0,1 0,01 0,001 56,00 % 59,00 % 62,00 % 65,00 % 68,00 % 71,00 % 74,00 % 77,00 % % 80,00 % 83,00 % 86,00 % 89,00 % 92,00 % 95,00 % 98,00 % Lack of Bandwidth, congested routes, lack of a reasonable usage based charging model are key problems in the global Internet for IP Voice. 19 Packet loss rates of up-to 15-20% can be tolerated without degradation in voice quality Counter measures to loss include Receiver only methods Silence / white noice substitution or repeating the last packet content (small packets & little loss) Redundant (linear predictive) coding for high loss and longer packets (> 40ms) 20

Key Issue to the future of IP Voice is QoS support WWW Voice IP Differentiated Services Physical layer (SDH ) QoS routing is an open issue! QoS -at the Link layer simplifies the Network! Quality requires usage based billing. QoS support --> IP Voice can share Internet resources 21 Business Impact Telephony believers: Internet can never do this or that - mainly in the past! Pragmatists: Can you do money with it? Voice solutions in Intranets Interworking IP voice with ISDN Web interface to telephony services Telecom Vendors launching Integrated IP/ISDN/PSTN products, Gateways and Gatekeepers 22

Will IP telephony change the world? International Internet calling is a likely to stay a niche market Integrated Corporate Data/Voice solutions and networks Integrated Internet/PSTN/ISDN networks-->broadband Signaling is moving on top of IP Service Architecture is changing Highest impact on information rich services Accelerates service introduction rates Increases usage of communication services 23 Conclusions IP Voice and IP Telephony together with growth of Internet drive Integration of IP to ISDN/PSTN/GSM networks IP telephony introduces a rich set of new attractive services Collision of IP and telephony is a major technology and market shift and creates industry upheaval among operators and vendors 24

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