**6. References**


Forum, W. (n.d.).

URL: *http://www.wimaxforum.org*

IEEE (2001). Ieee std. 802.16, *IEEE Standard for Local and Metroploitan Area Network Part 16 : Air Interface for Fixed Broadband Wireless Access System* .

Janevski, T. (2003). Artech house, *Traffic analysis and design of wireless IP networks* pp. 186–190.

**1. Introduction** 

**2.1 Introduction** 

**4** 

*1Mobinil 2Tekelec, Berlin* 

> *1Egypt 2Germany*

**Design and Analysis of** 

**IP-Multimedia Subsystem (IMS)** 

IP Multimedia Subsystem (IMS) has resulted from the work of the Third Generation Partnership Project (3GPP) toward specifying an all-IP communication service infrastructure (24.229 2009). Mainly looking at the needs and requirements of mobile operators, the 3GPP first specified IMS as a service architecture combining the Internet's IP technology and wireless and mobility services of current mobile telephony networks. After that the IMS architecture was extended to include fixed networks as well. By deciding to use session initiation protocol (SIP) as the signaling protocol for session establishment and control in IMS instead of developing its own set of protocols, 3GPP has opened the door toward a tight integration of the mobile, fixed and Internet worlds. Recent reports already indicate that there are more than 200 million subscribers using the IMS technology for telephony services. In this chapter we provide a theoretical model that can be used by operators and network designers to determine the effects of introducing IMS to their networks in terms of bandwidth usage for example and the effects of losses and delays on the service quality. This model uses as the input various traffic characteristics such as the number of calls per second and mean holding time and network characteristics, such as losses and propagation delays. The output of the model provides details on the bandwidth needed for successfully

Voice traffic in IP Multimedia Subsystem (IMS) will be served using Internet Protocol (IP) which is called Voice over IP (VoIP). This chapter uses the "E-Model", (ITU-T Rec. G.107 2005), as an optimization tool to select network and voice parameters like coding scheme, packet loss limitations, and link utilization level in IMS Network. The goal is to deliver guaranteed Quality of Service for voice while maximizing the number of users served. This optimization

By deciding to use session initiation protocol (SIP) as the signaling protocol for session establishment and control in IMS instead of developing its own set of protocols, 3GPP has

can be used to determine the optimal configuration for a Voice over IP in IMS network.

establishing a session when using SIP over UDP in IMS networks.

**2. Bandwidth calculation for IMS session establishment** 

Wagdy Anis Aziz1 and Dorgham Sisalem2

