Transcript Document
Business-Class Router Solutions – All Telecommunication Services in One Access 4.7 VoIP Implementation in OneOs www.oneaccess-net.com [email protected] v0.11 2007 Copyright © OneAccess Networks – All rights reserved VoIP – H.323 VoIP Typical Architecture Media Gateway PSTN SS7/ISUP H.323 Voice Gateway ONE 400 ISDN S0/S2 IP Softswitch Gatekeeper H.323 Voice Gateway ONE 200 Copyright © OneAccess Networks – All rights reserved ISDN S0 or FXS 2 VoIP - SIP VoIP Typical Architecture Media Gateway PSTN SIP Voice Gateway ONE 400 SS7/ISUP IP ISDN T0/T2 SIP IP PHONE Voice Gateway ONE 100 Softswitch Copyright © OneAccess Networks – All rights reserved 3 VoIP: Voice Processing Voice processing: main features Echo cancellation Jitter compensation Voice coding G.711 a-law or µ-law (64 kbps) G.729A (8 kbps, no silence suppression) G.726r32 ( 32 kbps ) G.729AB (8 kbps, optional silence suppression) CES Clear Channel for unrestricted data (64 kbps transparent) FAX/Modem processing Data processing Clock synchronization Copyright © OneAccess Networks – All rights reserved 4 VoIP: Echo Cancellation The echo must be cancelled on both sides to preserve the Quality of the voice Echo is due to a physical phenomenon: The transmitted voice signal is reflected at the far-end of the transmission line when a mismatch condition exits for : Analog loop / hybrid 2-wires/4-wires (electrical signal reflection) Acoustical feed-back (sound signal reflection) On PSTN line, if the transmission delays are low (< 10ms), the echo is not noticed by human ears The echo becomes audible with VoIP because of various processing steps introducing delay in voice transmission: Packetization / compression / propagation / cells switching / queuing for prioritization / buffering for jitter compensation / network transit delay Copyright © OneAccess Networks – All rights reserved 5 VoIP: Echo Cancellation Echo Cancellation echo origin from 2 to 3 ms B The echo coming from B and heard by A must be cancelled here PBX A IP T0 + 100 T0 + 100 + 6 T0 A C 3 ms T0 + 206 ms Long echo result (com. from A to C) with 100ms transit delay Copyright © OneAccess Networks – All rights reserved 6 VoIP: Echo Cancellation The ONE CPE has three cancellation delays or (length) low = 8 msec: used for phones directly connected to the PBX or the ONE200/400 medium = 16 msec and high = 32 msec recommended if a PSTN is used for the call The Echo cancellation is automatically disabled when modem transmission is detected The Echo canceller includes a Non Linear Processor (NLP) to suppress the residual echo. The NLP is disabled in case of G3 FAX communication The echo canceller automatically detects double-talk situation to suspend the cancellation The following standards apply: ITU-T G.165 , G.168 Copyright © OneAccess Networks – All rights reserved 7 VoIP: Jitter Compensation Important Jitter is generated if: The long data packets are not fragmented when transmitted over low speed lines The priority for voice packets is not managed in the network Data Multiplexing jitter generation Voice The ONE200/400 compensates jitter by implementing a dejitter buffer Buffer Jitter compensation Output clock Copyright © OneAccess Networks – All rights reserved 8 VoIP: Voice Coding Voice coding Configurable coder list for capabilities negotiation Configurable transmission periodicity 10, 20, 30, 40 ms for G.711, G.729A, G.729AB, CES Support of asymmetric coding Copyright © OneAccess Networks – All rights reserved 9 VoIP: Voice Coding Voice Coding Used bandwidth Length G.711/CES G.726 32Kbps G.729AB Bandw ith requirem ent in bps Period Packet/s Voice only with IP Ethernet ATM IP Only 10 100 80 120 126400 127200 96000 20 50 160 200 95200 106000 80000 30 33,33 240 280 84792 84792 74659 40 25 320 360 79600 84800 72000 10 100 40 80 94400 84800 64000 20 50 80 120 63200 63600 48000 30 33,33 120 160 52795 56528 42662 40 25 160 200 47600 53000 40000 10 100 10 50 70400 84800 40000 20 50 20 60 39200 42400 24000 30 33,33 30 70 28797 28264 18665 40 25 40 80 23600 21200 16000 Copyright © OneAccess Networks – All rights reserved 10 VoIP: FAX/Modem processing Fax / Modem processing Three types of devices are supported: G3 FAX (up to V17 – 14400 bps) Super G3 FAX (V34): processed as a Modem Modem (up to V90) The ONE200/400 detects the type of communication: voice, G3 FAX, Modem/SG3 Fax , (analysis of the FAX answer tone) Requirements: For Modem / SG3 FAX, the coder must be G.711 and the echo canceller must be disabled , SG3toG3 facility is also available to force the SG3 FAX in G3 mode For G3 FAX: the Non Linear Processor is disabled. Transport in G.711 coding mode or FAX Relay T38 Copyright © OneAccess Networks – All rights reserved 11 VoIP: FAX/Modem Processing In-band processing The coder used is G.711 Selected for all the calls or for specific subscriber numbers only (routing table) Echo canceller automatically disabled in case of Modem NLP automatically disabled in case of G3 Fax FAX / Modem passthrough Direct switchover to G.711 coder upon fax and/or modem detection (called side only). (oneway G729 to G711 fallback) or SIP re-invite message or NSE RTP packets ( Cisco ) Echo canceller automatically disabled in case of Modem NLP automatically disabled in case of G3 Fax FAX Relay T38 V27 ter (4800 bps) and V29 (9600 bps) T.30 messages analysis Transparent transport for data (UDP) with optional redundancy SG3toG3 fallback / allows to use same bandwidth for G3 and SG3 FAX Copyright © OneAccess Networks – All rights reserved 12 Fax relay T38 debug Fax T38 processing and traces: display of the T30 messages. One_training>trace filter add vox up ifp 2 show 01:42:57.665 Info vox voip userplan 3 Fax T38 starting call-id: 29 . 01:43:04.825 VOX.up.ifp.2 ------ NSF / CSI / DIS ------> 01:43:07.717 VOX.up.ifp.2 <-------- TSI / DCS ---------01:43:07.837 VOX.up.ifp.2 <------- TCF (v29_9600) -------01:43:11.814 Info vox voip userplan 1 T38 Pre-message procedure OK, call-id: 29. 01:43:11.814 VOX.up.ifp.2 ------------ CFR ------------> 01:43:12.437 Info vox voip userplan 1 T38 Transmitting page 1, call-id: 29. 01:43:12.437 VOX.up.ifp.2 <------ PAGE (v29_9600) -------01:51:10.502 VOX.up.ifp.2 <--------- PPS-EOP ----------01:51:13.599 Info vox voip userplan 1 T38 page 1 OK, call-id: 29. 01:51:13.599 VOX.up.ifp.2 ------------ MCF ------------> 01:51:15.282 VOX.up.ifp.2 <----------- DCN ------------01:51:15.846 Info vox voip controlplan 3 Call Disconnection received on local port: 5/2, cause: (16)[Normal call clearing], call-id: 29. Copyright © OneAccess Networks – All rights reserved 13 Fax relay T38 debug Fax T38 processing and traces: display of the T30 messages. One_training>trace filter add vox up ifp 2 show 01:42:38.100 Info vox voip controlplan 3 Outgoing call on voip id: 0, calling: 110, called: 111, call-id: 29. 01:42:40.397 Info vox voip controlplan 3 Alert in band received, call-id: 29. 01:42:40.917 Info vox voip userplan 3 VoIP RTP transmission started, coder: G729, call-id: 29. 01:42:40.997 Info vox voip userplan 3 VoIP RTP reception started, coder: G729, call-id: 29. 01:42:52.444 Info vox voip controlplan 3 Call connected, call-id: 29. 01:42:57.537 Info vox voip userplan 3 VoIP RTP transmission stopped, coder: G729, call-id: 29. 01:42:57.537 Info vox voip userplan 3 VoIP RTP reception stopped, coder: G729, call-id: 29. 01:42:57.665 Info vox voip userplan 3 Fax T38 starting call-id: 29 . 01:43:04.825 VOX.up.ifp.2 ------ NSF / CSI / DIS ------> 01:43:07.717 VOX.up.ifp.2 <-------- TSI / DCS ---------01:43:07.837 VOX.up.ifp.2 <------- TCF (v29_9600) -------01:43:11.814 Info vox voip userplan 1 T38 Pre-message procedure OK, call-id: 29. 01:43:11.814 VOX.up.ifp.2 ------------ CFR ------------> 01:43:12.437 Info vox voip userplan 1 T38 Transmitting page 1, call-id: 29. 01:43:12.437 VOX.up.ifp.2 <------ PAGE (v29_9600) -------01:51:10.502 VOX.up.ifp.2 <--------- PPS-EOP ----------01:51:13.599 Info vox voip userplan 1 T38 page 1 OK, call-id: 29. 01:51:13.599 VOX.up.ifp.2 ------------ MCF ------------> 01:51:15.282 VOX.up.ifp.2 <----------- DCN ------------01:51:15.846 Info vox voip controlplan 3 Call Disconnection received on local port: 5/2, cause: (16)[Normal call clearing], call-id: 29. Copyright © OneAccess Networks – All rights reserved 14 Modem / fax pass-through event Example of event in case of modem/fax call. One_training>event filter add vox all show 00:11:21.485 Info vox voip controlplan 3 Incoming call on voip id: 0, calling: 111, called: 110, call-id: 3. 00:11:21.486 Info vox voip controlplan 3 Outgoing call on local port: 5/0, calling: 111, called: 110, call-id:3. 00:11:21.550 Info vox voip controlplan 3 Alert received, call-id: 3. 00:11:21.631 Info vox voip controlplan 3 Call connected, call-id: 3. 00:11:25.142 Info vox voip userplan 1 Fax/Modem Passthrough starting call-id: 3. 00:11:25.142 Info vox voip userplan 3 RTP new transmission coder: G711 A Law, call-id: 3. 00:11:25.341 Info vox voip userplan 3 RTP new reception coder: G711 A Law, call-id: 3. 00:12:23.533 Info vox voip controlplan 3 Call Disconnection received on local port: 5/1, cause: (16)[Normal call clearing], call-id: 3. 00:12:23.552 Info vox voip userplan 3 VoIP RTP transmission stopped, coder: G711 A Law, call-id: 3. 00:12:23.552 Info vox voip userplan 3 VoIP RTP reception stopped, coder: G711 A Law, call-id: 3. Copyright © OneAccess Networks – All rights reserved 15 VoIP: Data Processing Unrestricted data processing ( CES codec ) Application case : videoconference H.320, data applications over ISDN Detected by the analysis of the Bearer Capability IE Voice coding profile automatically restricted to G.711, no echo cancellation and DTMF processing disabled Configurable RTP Payload Type ( 101 by default ) Requires clock synchronization Copyright © OneAccess Networks – All rights reserved 16 VoIP: Clock Synchronization For modem and data calls, the local interfaces clock must be synchronized with the local PBX port Fax calls are often interrupted after 2/3 pages in case of wrong clock synchronization Several possibilities Use of the xDSL clock (provided by the DSLAM ) Use of the ONE200/400 internal clock (high accuracy: +/-30ppm) Use of a local ISDN interface connected to the PSTN or PBX (BRI or PRI protocol emulation isdn-te mode) Copyright © OneAccess Networks – All rights reserved 17 VoIP: DTMF Processing DTMF processing Transparent mode In band transmission If G.711 coder used Voice is not compressed, DTMF signal is transported as a voice signal RTP frames carrying the DTMF tone indication instead of voice RFC2833 (dedicated RTP packets with specific packet type) SIP info Use of sip info message (out of band transmission) Copyright © OneAccess Networks – All rights reserved 18 Business-Class Router Solutions – All Telecommunication Services in One Access OneOs Voice Configuration Dial-Peer Concept www.oneaccess-net.com [email protected] v0.11 2007 Copyright © OneAccess Networks – All rights reserved VoIP Configuration Diagram (H.323 / SIP) ONE CLASSICAL TELEPHONE NETWORK ISDN PBX 2 Voice Routing Interface Interface BRI/PRI BRI/PRI BRI PRI BRI 5 VoIP Coder Profile 4 Digital 1 Physical Digital Voice-port Physical Voice-port Dial-Peer 3 Voice POTS Dial-Peer Voice POTS POTS Group 1 ISDN Phone POTS IP NETWORK 6 Analogue 1 Physical Analogue Voice-port Physical Voice-port Dial-Peer 3 Voice POTS Dial-Peer Voice POTS Dial-Peer Voice VoIP Dial-Peer Voice VoIP 7 H.323 or SIP Gateway 8 SIP Server POTS Group 2 SIP Phones Copyright © OneAccess Networks – All rights reserved 20 VoIP Configuration Diagram (MGCP) ONE CLASSICAL TELEPHONE NETWORK IP NETWORK 5 VoIP Coder Profile 4 Dial-Peer Voice VoIP Analogue 1 Physical Analogue Voice-port Physical Voice-port 7 MGCP Gateway Dial-Peer 3 Voice POTS Dial-Peer Voice POTS POTS Group 2 Copyright © OneAccess Networks – All rights reserved 21