There have been many researches on providing mobility under mobile/wireless environment. However, previous researches had several problems as disruption and unnecessary traffic. Disruption happens when messages are exchanged between nodes as registration is made after handoff, and unnecessary traffic occurs because of the use of Random-walk model, in which the probability for MN to move to the neighboring cells is equal. In order to solve these problems, this study proposes a technique and algorithm for composing Directional Shadow Registration Region (DSRR) that provides seamless mobility. The core of DSRR is to prevent disruption and unnecessary traffic by shadow registration at neighboring cells with a high probability of handoff (AAAF). We are introduced a cell division scheme and decided minimal DSRR. DSRR can sensed the optimal time for handoff through Regional Cell Division and applied Direction Vector (DV) obtained through Directional Cell Sectoring. According to the result of the experiment, the proposed DSRR processes message exchange between nodes within the intra-domain, the frequency of disruptions decreased significantly compared to that in previous researches held in inter-domain environment. In addition, traffic that occurs at every handoff happened twice in DSRR compared to n (the number of neighboring cells) times in previous researches.

This paper describes the JAINTM JavaTM Call Control (JCC) Application Programming Interface (API), and its relationship to network protocols, in particular the Session Initiation Protocol (SIP). JCC is a high-level object-oriented open, standard API for Next Generation Network (NGN) softswitches that enables rapid creation, by third parties, of services that can run independently of the underlying network technology (e.g. wireless, wired, packet, IP, PSTN) and protocols. SIP is a protocol that has been proposed for a wide variety of uses in IP networks, including call control. We argue that instead of being competitors, JCC and SIP are complementary, with JCC offering higher-layer programming abstractions and protocol-independence, and demonstrate by examples how to map JCC version 1.0 to a SIP environment. We thus show that for common call control applications using JCC is simpler, faster and less maintenance intensive than using SIP directly.