International audience— Mobile IP allows a mobile node to maintain a continuous connectivity to the Internet when moving from one access point to another. However, due to the link switching operations packets designated to mobile nodes can be delayed or lost during the handover period. This paper presents a two-layer solution to improve the handover performance both at the Link Layer and the Network Layer in the context of Mobile IP over wireless networks. At the Network Layer, we use a new function named Extended Handover Control Function (EHCF) which allow us to delete the DAD operation. At the Link Layer, a neighbor graphical prediction approach (NGP) reduces the probe latency. Moreover, the EHCF can buffer the packets during the handove...
Achieving IP handoff with a short latency and minimal packet loss is essential for mobile devices th...
Current IP-level mobility protocols have difficulties meeting the stringent handover delay requireme...
Abstract. Current IP-level mobility protocols have difficulties meeting the stringent handover delay...
International audience— Mobile IP allows a mobile node to maintain a continuous connectivity to the ...
Handover in future wireless communication systems must be seamless. Current IP-level mobility protoc...
In wireless/mobile networks, users freely and frequently change their access points while they are c...
This paper analyzes the reduction of handover delay in a network-based localized mobility management...
Handover in future wireless communication systems must be seamless. Current IP-level mobility protoc...
Mobile computing is becoming increasingly important, due to the rise in the number of portable comp...
Mobile IP and SIP are well-known approaches to support mobility. However, the triangular routing inv...
● Number of wireless terminals and applications increases ● Quality-of-Service sensitive application...
Seamless communication is becoming the main aspect for the next generation of the mobile and wireles...
Mobile computing is becoming increasingly important, due to the rise in the number of portable compu...
Abstract: Mobile networking technology is progressing to support the requirements of today’s new cla...
The fast mobile internet protocol version 6 (FMIPv6) was suggested as a fast handover mechanism over...
Achieving IP handoff with a short latency and minimal packet loss is essential for mobile devices th...
Current IP-level mobility protocols have difficulties meeting the stringent handover delay requireme...
Abstract. Current IP-level mobility protocols have difficulties meeting the stringent handover delay...
International audience— Mobile IP allows a mobile node to maintain a continuous connectivity to the ...
Handover in future wireless communication systems must be seamless. Current IP-level mobility protoc...
In wireless/mobile networks, users freely and frequently change their access points while they are c...
This paper analyzes the reduction of handover delay in a network-based localized mobility management...
Handover in future wireless communication systems must be seamless. Current IP-level mobility protoc...
Mobile computing is becoming increasingly important, due to the rise in the number of portable comp...
Mobile IP and SIP are well-known approaches to support mobility. However, the triangular routing inv...
● Number of wireless terminals and applications increases ● Quality-of-Service sensitive application...
Seamless communication is becoming the main aspect for the next generation of the mobile and wireles...
Mobile computing is becoming increasingly important, due to the rise in the number of portable compu...
Abstract: Mobile networking technology is progressing to support the requirements of today’s new cla...
The fast mobile internet protocol version 6 (FMIPv6) was suggested as a fast handover mechanism over...
Achieving IP handoff with a short latency and minimal packet loss is essential for mobile devices th...
Current IP-level mobility protocols have difficulties meeting the stringent handover delay requireme...
Abstract. Current IP-level mobility protocols have difficulties meeting the stringent handover delay...