Multi-Service Networks ENGINE INTEGRAL NETWORK EIN 3.1 solution presentation

1. Multi-Service NetworksENGINE INTEGRAL NETWORKEIN 3.1 solution presentation Ивайло Бачийски

2. ENGINE INTEGRAL NETWORK • ENGINE Integral is a Softswitch solution for Telephony over IP. • It modernizes the PSTN in line with the NGN converged layered architecture. • It is a proven carrier-class solution supporting full telephony functionality in both Class 4 and Class 5. • Migration from PSTN to IP multi-service can be done with flexibility and low risk.

3. Telephony over IP (ToIP) - Carrier Class • Minimum 99,999% availability • Both Class 4 and Class 5 applications are supported • Complete PSTN/ISDN feature compatibility including market adaptation • Service can be transported over TDM, ATM or IP seamlessly

4. Agenda EIN3.1 Solution Presentation General Network Architecture Network evolution Characteristics Solution Nodes Overview Control Protocols and Interfaces Migration / Upgrade Service Portfolio Management Main differences EIN3.1 - EIN2.0 Engine Integral Network Benefits ENGINE INTEGRAL NETWORK

5. Engine Integral NetworkGeneral Network Architecture

6. Applications Softswitch Solution EIN,EMM, Establish new revenue streams, integrate new services into existing infrastructure Manage the whole life cycle of their telephony network. Continue to provide high quality voice, protect major source of revenues and profits TelephonyLifecycle Management BroadbandService Network AXE, EIN, EAR Network Assurance EMM, IPSE,Juniper BRAS Packet Backbone Network Juniper , Axerra , Netscreen Address growing demands for data services. Improve margins on legacy data networks. Make IP resilient enough for real time communications

7. TeS TeS Other Networks Media Gateway Media Gateway ApplicationServer ATMFrame relayIP/MPLS IP/ATM Bearer/Connectivity Network LE TE AN EAR End-to-End Solutions matching business needs Solution overview Service Control Point (IN) ENGINE Integral Network (EIN) Management & Services Control TelephonyServer Telephony Server Multi-Servicegateway Multi-Servicegateway IP/ATM packet backbone Connectivity ENGINE AccessRamp Access Transit Exchange PBX PBX Access Node Local Exchange LMDS Broadband

8. Management for ENGINE Integral Network Media Gateway Media Gateway Media Gateway TeS TeS PLMN Network Data Base Other Operators Network Packet Network TE/LE EAR AN ENGINE Integral a layered network structure Control Connectivity Access

9. Multi Service Solution • Both Voice and Data Management for ENGINE Integral Network Media Gateway Media Gateway Media Gateway TeS TeS PLMN Network Data Base Other Operators Network Packet Network TE/LE EAR AN ENGINE Integral a layered network structure Control Connectivity Access

10. Management for ENGINE Integral Network Media Gateway Media Gateway Media Gateway TeS TeS PLMN Network Data Base Other Operators Network Packet Network TE/LE EAR AN Multi-domain capabilities ENGINE Integral a layered network structure

11. H.323 Management for ENGINE Integral Network SIP-T BICC CS-2 ISUP SIP Media Gateway Media Gateway Media Gateway Gateway SIP TeS TeS H.323 H.248 Other Operators PSTN Network Other Operators VoIP Network VoIP Networks IP Backbone Network TE/LE TE/LE EAR EAR AN AN General network architecture

12. Engine Integral NetworkSolution Nodes Overview

13. Management for ENGINE Integral Network Media Gateway Media Gateway Media Gateway TeS TeS PLMN Network Data Base • AXD 301 multi-service switch • Media Gateway for voice services • Edge or core IP/ATM switch • Frame Relay node • MPLS router (LSR) for IP traffic Other Operators Network Packet Network TE/LE EAR AN ENGINE Integral a layered network structure Control Connectivity Access

14. Management for ENGINE Integral Network • Telephony Server • Call control & call logic • Uses proven legacy processors, • signaling devices & software Media Gateway Media Gateway Media Gateway TeS TeS PLMN Network Data Base Other Operators Network Packet Network TE/LE EAR AN ENGINE Integral a layered network structure Control Connectivity Access

15. ENGINE Integral

16. IP/ATM Switch A powerful, scaleable Edge and Core IP/ATM switch with carrier-class capabilitiesand IP support. (AXD 301 multi-service switch) Edge and Core Routers Carrier-class Edge and Core IP Routerswith MPLS LER and LSR functionality. Management for ENGINE Integral Network Media Gateway Media Gateway Media Gateway TeS TeS PLMN Network Data Base Other Operators Network Packet Network TE/LE EAR AN ENGINE Integral a layered network structure Control Connectivity Access

17. Management for ENGINE Integral Network Media Gateway Media Gateway Media Gateway TeS TeS PLMN Network Data Base Other Operators Network Packet Network TE/LE EAR AN Telecom Management Solution ENGINE Integral a layered network structure Network Management & Service Assurance Integration Telecom Management for Multi-Service Networks Control A complete solution defined specifically around the multi-service network and designed to improve its performance and reduce cost Connectivity Access

18. Network architecture for the Telephony Server application • The main building blocks are the Telephony Server (TeS) and the Media Gateway (MGW), which communicate using the H.248 control protocol. • The TeS handles call logic and controls the switching resources that are implemented in the MGW via the standardized H.248 protocol. • The MGW performs the real switching and media inter working functions between the TDM domain and the connectivity network. • The call is set up using standardized IP- or ATM- signaling interfaces.

19. Other operator Other operator Telephony Server application SCP SCP SCP SCP ETSI CS1 ETSI CS1 ETSI CS1 ETSI CS1 E E - - INAP INAP E E - - INAP INAP SIP-T or BICC CS2 Telephony Telephony Telephony Telephony Telephony Telephony Telephony Telephony Server Server Server Server Server Server ENGINE ENGINE Server Server ENGINE ENGINE Access Access Access Access Access Access Access Access Node Node Ramp Ramp Node Node Ramp Ramp H.248 H.248 H.248 H.248 IP / ATM IP / ATM Packet backbone Packet backbone MGW MGW LE LE LE LE MGW MGW MGW MGW LE LE LE LE MGW MGW PBX PBX PBX PBX PBX PBX PBX PBX Other operator Other operator

20. Structure of the Media Gateway (AXD301)

21. Engine Integral NetworkNetwork evolution

22. TeS TeS Media Gateway Media Gateway Media Gateway Media Gateway Media Gateway Media Gateway Router Router Router Router Router Router Most efficient use of network resourcesby creating one core network • Reduce the number of leased links • Combine the telephony links with the data links Telephony over packet Data over packet Multi-Service over packet

23. ENGINE Integral offers more than 99,999% availability and all PSTN/ISDN services ENGINE Integral can be used as an efficient gateway solution between networks MGW/TAG functionality combined with Ericsson’s access solutions gives high level of flexibility MGW /TAG Values with ENGINE Integral

24. ENGINE Integral supports Transit (both National and International and local applications! • Interworking with existing VoIP networks (H323/SIP) and Interconnects with Legacy Telephony networks (PSTN/ISDN) and ToIP networks.

25. Opportunities or Situations Modernization • Replace out-dated equipment like analogue equipment or old hardware no longer supported in specific parts of the network Optimization/Consolidation • Reduction of nodes & buildings, optimization of transmission, O&M etc. in specific parts of the network. Hot spot relief • Cater for traffic growth in isolated areas due to interconnect, regulator demands, new services etc. Expansion • Overlay network to cater for traffic increase in major parts of the network due to interconnect, regulator demands, new services etc. Multi-service requirements • Possibility to establish a combined datacom and voice network from day one, including roadmap to IP. This is mostly relevant for greenfield operators.

26. Local switches Transit Layer Transit Layer Local switches Telephony Server Multi-Servicegateway Multi-Servicegateway = Point of congestion IP/ATM connectivity ENGINE Integral for relief of bottlenecks

27. Local switches ENGINE Integral CAPEX reduction through gradual simplification of network TransitSwitch TransitSwitch Telephony Servers Multi-Servicegateway Multi-Servicegateway IP/ATM connectivity Multi-Servicegateway

28. Route capacity Augment / Decrement 2Mb Traffic Trend Example - Network Provisioning / Augmentationreduction of OPEX with ENGINE Integral Transit Exchange Traditional Network Route Traffics % Local Exchange Route Traffic Trend analysis algorithm In a typical telephony network of 10M lines this is performed on over 30,000 individualroutes every month!!!!

29. Engine Integral NetworkCharacteristics

30. Characteristics • The Multi-Service Gateway is built on a platform scalable from 10, 20, 40 Gbit/s standard configurations. The processor power is also scalable, which means that one subrack (equal to a 10 G MSG) can be equipped with one up to four processor pairs. • A large Telephony server has capability for handling of up to 550 basic calls per second.

31. Scalable ENGINE capacity Class 4 (E1) An impressing capacity enhancement APZ 212 40 10000 1100 cps 8000 ML 20G + ACP APZ 212 33 5000 550 cps 4000 ML 40G 2000 ML 20G (2) 216 cps 120 cps 1000 EIN 1.0/2.0 EIN 1.0/2.0E/3.1 EIN 4.0 2005

32. Engine Integral NetworkControl Protocols and Interfaces

33. Protocols and Interfaces • Telephony services are secured by one or several Telephony Servers, which control all legacy PSTN and ISDN services as they are carried through the backbone network. • Communications between Telephony Server uses standard protocols such as SIP-T or BICC-CS2, ensuring compatibility in a multi-vendor environment. • At the edge of the network Media Gateways use various interfaces, including TDM interfaces for Circuit Emulation in the network, IP/MPLS and ATM/FR, to connect access devices to the multi-service core network. Communication TeS – MGW is based on H.248. • EIN supports ISUP, DSS1, and V5.2 and signalling to Ericsson’s RSS and EAR; combined with IP and ATM. With a packet backbone it is easier and more cost efficient to introduce access nodes with ADSL and VoDSL

34. Protocols and Interfaces • For bearer control within IP network IPBCP (tunnelled through H.248 and SIP-T/BICC). The bearer transport for voice is data/RTP/UDP/IP • For bearer control within ATM network UNI 4.0, PNNI 1.0 and AINI protocols are supported. • A wide range of IP interfaces, optical, electrical, and different transmission rates - from E1/DS1 up to STM1/OC3 - are supported by the interface boards. • A wide range of ATM interfaces, optical, electrical, and different transmission rates - from E1/DS1 up to STM16/OC48 - are supported by the interface boards.

35. Management for ENGINE Integral Network Media Gateway Media Gateway Media Gateway SIP-T BICC TeS TeS PLMN Network H.248 Data Base DSS1 Other Operators Network Packet Network ISUP TE/LE EAR AN ENGINE Integral Traffic handling separation of call control and connectivity Control Connectivity Access PBX

36. Management for ENGINE Integral Network Media Gateway Media Gateway Media Gateway TeS TeS PLMN Network Data Base Other Operators Network Packet Network TE/LE EAR AN ENGINE Integral Traffic handling data connection FR,ATM IP/MPLS Control Connectivity UNI,PNNI Access FR,ATM IP/MPLS PBX

37. Function Protocols Call control between the servers SIP-T, BICC CS2 Bearer control within ATM network UNI 4.0, PNNI 1.0, AINI IP routing protocol OSPF, IS-IS, BGPv4 Accesses connected to the MGW V5.2, DSS1(PRA), QSIG, RSS Networks connected to MGW ISUP, H.323, SIP*, SIP-T Telephony Server internal control protocol CCF-ML, ML-MGW(IC), Telephony Server -> MGW control protocol H.248 Control protocol within IP network IPBCP MPLS signaling protocol RSVP-TE Control Protocols *SIP for network network

38. Transport of intra-domain narrowband signaling

39. Engine Integral Network Gateway functionality

40. Management Other networks TeS TeS PSTN/ISDN VoIP Packet Backbone Network BRAS DSLAM Legacy data Mobile NBAccess Access Media Gateway Media Gateway Media Gateway ENGINE Integral Network supports voice and data

41. Gateway functionality • National/International gateway. Traditional functions like addition of country code, deletion of national services etc. • Gateway between network operators (administrative domains) Screening of services and protocols due to commercial bilateral agreements, accounting etc.   • Gateway between logical call control, (application level). Mapping between protocols like ISUP/SIP/TUP/CAS, ETSI/ANSI etc. Screening of services and protocols due to different ability. • Gateway between different logical solutions. Interworking between e.g. EIN and other vendor.  

42. Gateway functionality, continued • Gateway between different logical functionality. Interworking between e.g. VoIP (multi media)/telephony, ISDN/PSTN etc. • Gateway between signaling transport. MTP as alternative to SCTP/UDP, use of SG, E1/T1 etc. • Gateway between bearer differences (different technology).Gateway between TDM, ATM or IP • Gateway between bearer differences (different coding). Different transport rates, codecs, bandwidth, /A-law etc.

43. VoIP IP Network VoIP IP Network H.323/SIP Media Gateway Media Gateway Media Gateway Media Gateway Media Gateway ToIP IP Network SIP-T (ISUPencaps.) ToIP IP Network TeS TeS TeS SIP-T or BICC SIP/ISUP Multimedia EMM Network Multimedia EMM Network BICC/ISUP ATM network ISUP ATM network PSTN/ISDN Network TDM PSTN/ISDN Network TDM Traffic cases supported by the TeS application Domain 2 Domain 3 Domain 1 IP/ATM EIN Network Two domain call One domain call Three domain call

44. Engine Integral NetworkMigration / Upgrade

45. Router/ BRAS Data Networks PSTN/ISDN Network Local Exchange • Trends: • Price pressure on telephony • Aging telephony networks • Multiple data networks • IP traffic increase • Broadband roll-out Current situation • Services: • Telephony • Dial up connections • Layer 2 VPNs • Legacy data (FR, ATM, X.25) End users

46. Router/ BRAS Media Gateway PTSN/ISDN network Broadband IP network Local Exchange • Drivers: • Obsolescense • New revenues • Increase voice margins • Expansion/Hot spot • Vendor reduction • Regulatory requirements • Last time buy PSTN evolution TeS • Solutions: • Network Assurance • ENGINE Integral • ENGINE Access Ramp • EDA + IAD +TAG (BB) End users

47. Router/ BRAS Media Gateway Media Gateway Multi Service IP Network Broadband Multi-service network Application servers Softswitch TeS IMS IP Service Engine End users SIP client

48. Circuit switched to packet switched- ENGINE and Network Assurance TeS MSG ENGINE Integral Existing CS Network + MSG MSG Network Assurance EAR Network Assurance (AXE Enabler 1.0) ENGINE Integral

49. Migration from TDM to packet • Migration from AXE to Telephony Server means modernized hardware and new software is introduced with the same data as before. • The Mediation Logic (the AXD301 part of the Telephony Server) and new Media Gateways are installed. • The access/trunks will gradually be moved from the group switch in the circuit switching nodes to the Media Gateways. • One and the same ENGINE Integral network is capable to provide services over ATM or over IP.

50. MGW MGW MGW MGW Telephony Telephony Telephony Telephony Telephony Telephony Telephony Telephony ATM TDM TDM TDM TDM Server Server Server ATM Server Server Server Server Server ATM ATM IP IP ATM ATM IP IP TDM TDM TDM TDM Packet Backbone Packet Backbone Packet Backbone Packet Backbone Migration from ATM to IP IP Migration from ATM to IP requires new IP boards in the MGWs and in the TeS (Mediation Logic) to connect to the packet backbone