Mobile IP to handle mobility of Internet hosts at the network layer. Mobile IP, however, suffers from a number of drawbacks such as high handover latency, packet loss, and conflict with network security solutions. In this paper, we describe and evaluate the performance of SIGMA,aSeamless IP diversity based Generalized Mobility Architecture. SIGMA utilizes IP diversity to achieve a seamless handover of a mobile host, and is designed to solve many of the drawbacks of Mobile IP. Various aspects of the performance of SIGMA and Mobile IPv6 enhancements have been compared. Criteria for performance evaluation include handover latency, packet loss, throughput, and network friendliness. I
Includes bibliographical references (leaves 76-78).Real-time communications are likely to playa key ...
Handovers in mobile packet networks commonly produce packet loss, delay and jitter, thereby signific...
Mobile Internet Protocol (MIP) is the forms of the backbone for next generation wireless internet te...
Abstract — The Internet Engineering Task Force has developed Mobile IP to handle mobility of Interne...
Mobile IP has been developed to handle mobility of Internet hosts at the network layer. Mobile IP (M...
Abstract — In our earlier study, we proposed SIGMA, a Seamless IP diversity based Generalized Mobili...
Abstract—A new end-to-end seamless mobility man-agement protocol, called Seamless IP diversity-based...
Abstract — In our earlier study, we proposed SIGMA, a Seamless IP diversity based Generalized Mobili...
Abstract Mobile IP has been developed by IETF to handle mobility of Internet hosts at the network la...
Internet Protocol (IP) mobility can be handled at different layers of the protocol stack. Mobile IP ...
International audienceIPv6 mobility management is one of the most challenging research topics for en...
Micromobility protocols aim to improve localized mobility by reducing the handover overhead. The Mob...
Mobile IP is the Internet Engineering Task Force (IETF) proposal to cater for All-Internet Protocol ...
Mobile IP (MIP) [1] has been designed to handle mobility of Internet hosts. MIP is known to suffer f...
Abstract — In order to support mobile users, the basic Internet protocols have been extended with pr...
Includes bibliographical references (leaves 76-78).Real-time communications are likely to playa key ...
Handovers in mobile packet networks commonly produce packet loss, delay and jitter, thereby signific...
Mobile Internet Protocol (MIP) is the forms of the backbone for next generation wireless internet te...
Abstract — The Internet Engineering Task Force has developed Mobile IP to handle mobility of Interne...
Mobile IP has been developed to handle mobility of Internet hosts at the network layer. Mobile IP (M...
Abstract — In our earlier study, we proposed SIGMA, a Seamless IP diversity based Generalized Mobili...
Abstract—A new end-to-end seamless mobility man-agement protocol, called Seamless IP diversity-based...
Abstract — In our earlier study, we proposed SIGMA, a Seamless IP diversity based Generalized Mobili...
Abstract Mobile IP has been developed by IETF to handle mobility of Internet hosts at the network la...
Internet Protocol (IP) mobility can be handled at different layers of the protocol stack. Mobile IP ...
International audienceIPv6 mobility management is one of the most challenging research topics for en...
Micromobility protocols aim to improve localized mobility by reducing the handover overhead. The Mob...
Mobile IP is the Internet Engineering Task Force (IETF) proposal to cater for All-Internet Protocol ...
Mobile IP (MIP) [1] has been designed to handle mobility of Internet hosts. MIP is known to suffer f...
Abstract — In order to support mobile users, the basic Internet protocols have been extended with pr...
Includes bibliographical references (leaves 76-78).Real-time communications are likely to playa key ...
Handovers in mobile packet networks commonly produce packet loss, delay and jitter, thereby signific...
Mobile Internet Protocol (MIP) is the forms of the backbone for next generation wireless internet te...