IMS Based Fixed-Mobile Network Convergence

Mi Zhengkun

(Nanjing University of Posts and Telecommunications, Nanjing 210003, China)

Abstract:The IP Multimedia Subsystem(IMS)proposed by 3GPP embodies an integration of communications network with the Internet technology and a fabrication of Next Generation Network(NGN)with 3G technology.IMS has been widely acknowledged in both telecom and Information Technology(IT)industries as the core technology for Fixed-Mobile Convergence(FMC).In terms of network convergence，IMS integrates Internet IP，Softswitch and cellular core network technologies.With respect to service convergence，it incorporates open Parlay/OSA technology and web services technology.As to management convergence，it combines management and policy control technologies of telecom network and IP network.To cope with a grim challenge from the Internet，all standardization organizations are interacting to push forward the further development of IMS.A common IMS，proxy service and managed P2P service are important subjects for further research.

A t the end of the 2Oth century，with the rapid growth of the Internet，the communications industry rethought its way of constructing global information infrastructure based on Asynchronous Transfer Mode(ATM)switching technology，and decided to use IProuting technology as the core technology for Next Generation Network(NGN).The fixed communications industry made a breakthrough in Voice over IP(VoIP)，introducing Softswitch networking technology and Parlay open service technology;the Internet Engineering Task Force(IETF)，taking advantage of the Internet's technical framework，suggested Session Initiation Protocol(SIP)for communication control in IPnetworks;and the mobile communications industry，represented by the 3rd Generation Partnership Project(3GPP)，integrated the above technologies with cellular mobile core network technologies，and proposed IP Multimedia Subsystem(IMS)technology，aiming for multimedia services.After its introduction，IMSwas soon widely recognized by the communications industry and Information Technology(IT)industry.It has become the core technology for Fixed-Mobile Convergence(FMC)，and is developing as the technology for future information and communications network convergence.

1 Research of International IMS Standards

3GPPhas collaborated closely with other standardization organizations in developing IMStechnical standards and improved these standards by teaming up with communications bodies worldwide(see Table 1).Among the collaboration examples，the most important one is that 3GPPand IETFjointly developed the core control protocol，SIP[1]，of IMS networks，and studied its extensions and applications.With SIP，future multimedia communications，whether between IMS users or between Internet users，can apply the same control protocol，thus truly realizing convergence of communications network and Internet.Another important example is 3GPP's collaboration with Parlay Group in developing Parlay/Open Service Access(OSA)Application Programming Interface(API)that supports open services，and introducing Parlay technology，which originated from fixed intelligent networks，into OSA architecture[2]of IMSnetwork.As a result，future service development can be based on the same APIno matter if the underlying layer is fixed network or mobile network，and no matter how the future network evolves，hence allowing information network and communications network to be converged.Two most important achievements from 3GPP's teamwork with other bodies are:Telecoms and Internet converged Services and Protocols for Advanced Networking(TISPAN)of European Telecommunications Standards Institute(ETSI)and Telecommunication Standardization Sector of International Telecommunication Union(ITU-T)propose the technology that integrates fixed access into IMS[3]，and Open Mobile Alliance(OMA)suggests many IMS-based technical specifications[4].

3GPPhas made a stage-by-stage evolution plan of IMS[5]based on the versions of Universal Mobile Telecommunications System(UMTS)'s 3G mobile communications system standards，as shown in Table 2.Among these standards，R5，which was developed in 2OO2，is the first standard for all-IPmobile networks.Treating the core network as a unified，IP-based Packet Switched(PS)domain，it can provide QoSguarantee and offer various types of value-added multimedia services.The core technical standard in R5 is IMS.R6 improves the interfaces and functions of IMS，supporting access to Wireless Local Area Network(WLAN)，and studying charging and QoScontrol technologies for IMS.Integrating the NGN-related standards developed by TISPANinto IMS，R7 supports access to Digital Subscriber Line family(xDSL)and introduces Policy and Charging Control(PCC)technology as well as Voice Call Continuity(VCC)technology for WLAN/3G continuous voice communications.R8，which is stillunder research，will focus on proxy technology，which is for integrated services，and common IMSframework.3GPPwill work with different standardization organizations in the research of R8.

▼Table 1. Main organizations participating in IMS research

2 IMS-Centric FMC Technology

Based on the ideas discussed above，a layered network structure of IMSis proposed，as shown in Figure 1.This figure illustrates the evolution of different standard versions.

The underlying one is the transport layer，which core technology is IPv4/IPv6.At this layer，all media streams，including voice，video and text，access the network using access technologies of either 2G/3G mobile networks or fixed broadband networks(e.g.Wireless Fidelity(Wi-Fi)and DSL).But all media streams are transmitted in the form of IPpackets.The network operators construct unified IPbroadband network to serve all users，reflecting the IP-based network convergence.

The upper layer is the service/application layer，which uses information technology as the coretechnology.At this layer，the service operators offer value-added services to end users via service logic units deployed in various application servers，and the service provisioning is independent of user access technologies which reflects the Information and Communication Technology(ICT)-centric service convergence and the characteristic of invoking converged communications network capabilities via API.

▼Table 2. Evolution path of IMS

▲Figure 1. Layered network architecture of IMS.

The middle layer is IMSlayer which takes SIPas its core technology.For the lower layer，i.e.transport layer，this layer controls and manages calls in IP multimedia communication，while for the upper layer，i.e.the service/application layer，it provides open interfaces to invoke communications network capabilities.In this way，the service layer is separated from the network layer，and service operators are independent of network operators，reflecting the control and management convergence of multimedia services.

2.1 Network Convergence Technology

The basic idea in IMS-based network convergence is to effectively integrate IP technology of Internet，Softswitch technology from fixed networks and core network technology in mobile networks to achieve the goal that fixed and mobile communications networks converge.

In the bearer layer，seeing the successful application of VoIP，IMS abandons the Circuit Switched(CS)domain，which has been dominant in traditional communications networks for quite a long time，but adopts IP-based Packet Switched(PS)domain to transmit various types of media and signaling streams.It for the first time applies all-IP bearer network in the communications system and makes it the foundation for communications network convergence.

As to service networking，IMSinherits network technologies specific to cellular mobile communications systems.It continues to use the concept of home network and visiting network，extended mobility management technology and centrally-configured network database to support subscriber's roaming and handover.In addition，based on Home Location Register(HLR)in 2G networks，the Home Subscriber Server(HSS)is developed，which is a critical network element to IMS.The HSSis used to store user information required for processing multimedia sessions，including location，authentication and authorization，user profile and home SIPserver.As a result，IMSsystem can flexibly offer IP multimedia services while retaining all characteristics of mobile communications.This fully reveals the convergence of mobile communications technologies with Internet technologies.

In terms of heterogeneous network interconnection and heterogeneous terminal access，IMStakes advantage of Softswitch technology to connect itself to traditional fixed and mobile networks via gateways.Like those traditional networks，it configures such network elements as Signalling Gateway(SGW)，Media Gateway(MGW)and Media Gateway Control Function(MGCF).Moreover，H.248 protocol，which was jointly developed by IETFand ITU-T，is used between MGCFand MGW.By setting related gateways and servers，IMScan support the access of not only mobile terminals，but also fixed terminals，multimedia terminals and PCs.The access can be done via cellular Radio Frequency(RF)interface or through WLAN and Worldwide Interoperability for Microwave Access(WiMAX)in wireless network or using Local Area Network(LAN)，DSLand coaxial cable in case of wired networks.Therefore，IMS system is applicable to both mobile networks and fixed networks，reflecting the convergence of fixed and mobile networks.

Referring to switching control technology of communications network，IMSintroduces a call/session control layer(i.e.IMSlayer)above the IPbearer layer.As the underlying layer is not traditional circuit switched network but IP-based packet switched network，IMS no longer uses traditional communications network signaling but applies Internet technologies and protocols as much as possible.In particular，it gives up the matured H.323 protocol suite，which was defined and developed by ITU-Tbased on Integrated Services Digital Network(ISDN)signaling，but chooses SIP protocol for control，which is not so mature but simpler and more scalable.

The core network element，i.e.Call Session Control Function(CSCF)，acts as a SIPproxy server，which not only forwards SIPmessages，but is also responsible for call controlin multimedia communication.For the routing of SIP messages，the Domain Name System(DNS)protocol is used for address resolution，while for the terminal users assigned with traditional telephone numbers，Telephone Number Mapping(ENUM)protocol developed by IETFis used for address resolution.Because most of its network interfaces use Internet protocols，IMSsystem not only supports IPnetwork-based multimedia communications between 3G users，but also supports communications between 3G users and Internet users without difficulty.

2.2 Service Convergence Technology

Service convergence is a higher-level convergence of IMS，playing a more important role in future heterogeneous information and communications network.To ensure gracefulevolution of existing networks，IMSsupports three service provisioning modes.

In the first mode，the fixed and mobile intelligent network technologies are used，allowing network operators to provide contracted intelligent services through Service Control Points(SCPs)，and ensuring the converged network to provide allvalue-added services of existing networks.In terms of technical update，this mode simply separates Service Switching Function(SSF)，which was originally a part of a switch，from CSCFand makes it independent IP Multimedia SSF(IM-SSF).

In the second mode，service technologies of SIP-based networks are used.With SIPprotocol being adopted in the IMSlayer，IMScan naturally offer the users various services or applications by setting various SIPservers and using the technologies that are widely used in Internet，such as Common Gateway Interface(CGI)，Servlet，JavaBean and Call Processing Language(CPL).This service provisioning mode employs many computer network technologies，and directly uses SIPas the interactive interface between the service layer and IMSlayer.As a result，the networking scheme is the simplest and easiest to converge with Internet，but is subject to SIPprotocol.

The third mode is called Parlay/OSA service architecture.It applies Parlay technologies that have been used in Softswitch-based networks，and offers services in an open way through API，the interface jointly developed by 3GPPand Parlay Group for invoking IMSnetwork capabilities.The services and applications are offered by OSA Application Servers(ASs)at the service layer，which are from either network operators or independent third-party service operators.In this way，the communications network is changed into an open network，separating the service layer from the network control layer.Moreover，3GPPhas defined Web Services interfaces against common APIs，allowing IMSservices and applications to be easily integrated with Web Services of Internet，thus realizing the convergence of communications networks'services and Internet services.Therefore，Parlay/OSA represents a development trend of IMS，and will be the core technology of service convergence.

2.3 Management Convergence Technology

With respect to service/operation management，IMSexploits Operations Support System(OSS)and Business Support System(BSS)technologies of communications networks.In network management，it refers to access authentication and security technologies of IPnetworks，and in QoScontrol and charging，it introduces PCC technology.

3 Challenges from Internet

With the rapid expansion of Internet applications and continuous update of Internet technologies，IMSis suffering great challenges from Internet due to conflicts between their design concepts.

Firstly，Internet's applications are directly developed at the network layer.It generally adopts Browser/Client/Server(B/C/S)architecture，and its service provisioning mode depends on servers and intelligent terminals.As a result，there is no network control layer.The basic design concept of Internet is to simplify the network as much as possible to ensure its scalability.According to Internet researchers，there is no distinctive difference between IMSand traditional telephone networks，except that the bearer layer of traditional telephone network is replaced by the IP-based layer in IMS.They even predict that IMSwill eventually collapse under their own weight.

Secondly，the Internet focuses on contents from the very beginning.Connection is only regarded as a basic function that a network must be equipped with.The network operators should cooperate with the content providers and make profits from back-end services，such as advertisements attached to the contents，rather than from connections.Some IT leading enterprises even advocate network neutralism[6].That is to say，networks should be treated as public resources in the information society，and should be fairly provided to the content providers.These enterprises understate the roles of operators and neglect the operation and charging management technology，which is exactly one of the most important technologies in IMS.

Thirdly and more importantly，the quick development of P2Pservices in recent years has become a direct threat to IMS[7].P2Pis a self-organizing technology in the application layer.It takes advantage of teamwork of computer terminals to obtain required services under the circumstance of insufficient bandwidth.It does not require any central network infrastructure as well as interventions from the IMScontrol layer.Although P2Pservices consume lots of network resources，and there are many problems to be solved，for example，security and intellectual proprietary rights，this creative technology has been widely recognized by many users，especially the young ones.The development of P2Pcannot be ignored.

In sum，IMShas to find its position as well as its development direction in such a challenging environment.

4 Development Direction of IMS

From the perspective of either technology or application，IMSshould be first an FMC technology.Therefore，the first thing that should be considered is how to integrate it with NGN so as to support multiple accesses，especially fixed access technologies.The problems to be solved include network traversal in case of fixed terminal access，Service Border Controller(SBC)technology，authentication and authorization of different types of terminals，roaming management of mobile terminals，nomadic management of fixed terminals，and domain-based routing mechanisms.So far，many solutions have been brought forward.The research of these problems is led by TISPAN and ITU-T.

After years of exploration，the telecom industry comes to an agreement that network evolution should be based on service-driven policies，and service convergence should be the most important goalof IMS-based network convergence.More attention should be focused on the research of system architecture and platform that can flexibly create services rather than just looking for the so-called“killer”services that can bring the operators huge profits.It must be noted that the control principle of IMSis basically originated from traditionalcommunications networks although the services that are supported by SIP-based IMShave been expanded from voice services to broadband multimedia services.Hence，IMSis most suitable for offering real-time session services such as VoIP，trunking voice and trunking video，rather than pure data services such as Web and electronic commerce.As for other promising services，for instance，media streaming services，Internet Protocol Television(IPTV)and messaging services，IMShas proposed or is studying the provisioning methods，but these services have already been provided by other non-IMS methods.Therefore，IMSis by no means an all-inclusive technology.Specifically speaking，IMSis a network convergence technology put forward by the communications industry，so it lays emphasis on offering services similar to traditional communications services.In order to enable IMSto play an important role in future converged information and communications networks，the researchers should actively study how to extend IMS'service capabilities on the one hand，and develop new architecture for IMSon the other hand to include both IMSand non-IMSservices，with an ultimate objective of creating a converged，open service platform.This IMS-based comprehensive service platform is also called service broker technology，which is one of hot research topics.Figure 2 illustrates such a platform.This platform can provide at least 4 categories of services as wellas any combination of these categories:IMS，messaging，media streaming and Web.In other words，in addition to SIP and APIof IMSsystem，the platform should have the capabilities of supporting other non-IMSsystem protocols and interfaces so as to form an integrated service layer.IMSis an important part of this platform，serving for communications network convergence.

▲Figure 2. A service proxy platform supporting service convergence.

5 Conclusion

IMSis a technology proposed by the communications industry.Its direct goal is to support fixed-mobile convergence，Currently，all standardization organizations closely cooperate in promoting the research of a common IMS.Based on SIP-based IMS，they try to extend IMSto include other interfaces and protocols，thus supporting various accesses and network interconnections，and integrating different service provisioning methods.Their finalgoal is to make IMSthe foundation of information and communications network convergence.They allagree that 3GPP takes the leadership in this research，i.e.Release 8，which is still in its infancy.

The last point that needs to be emphasized is that the advantage of IMS lies in its reliability and QoSguarantee，which are important characteristics distinguishing communications networks from Internet.Therefore，in the research of IMS，more attention must be paid to management technologies convergence，ensuring IMSnetwork to be operable，manageable and profitable.As for the Internet-specific service model such as P2P，which develops quickly but is found serious security and network scalability problems，the communications industry has changed its approach.It no longer takes the action of containments，but begins to introduce P2Pinto communications networks，studies manageable P2Pservice technologies and has proposed IMS-based P2P management framework and technologies.while its long-term goal is to support information and communications network convergence.The IMS-based convergence involves three aspects:IPbased network convergence，SIP-based control convergence and API-based service convergence.Among them，service convergence is the most important.The important characteristics of IMSnetwork，which distinguish it from Internet，are QoSguarantee and reliability.However，the development of IMSshould not be limited to SIPand API-based service provisioning mode.It should not only support various access technologies，but also include other control protocols and service interfaces to support diversified service provisioning modes.A common IMS architecture suggests a research subject oriented to IMS-based future information network convergence.