International audienceThe present paper focuses on the quantitative and qualitative performance analysis of Network Mobility (NEMO). It compares the original NEMO architecture with an architecture in which NEMO is enhanced with Multi-Path TCP (MPTCP). This quantitative and qualitative analysis is done by plotting theoretical and experimental results using a local testbed implementation. It is shown that the novel combination of NEMO and MPTCP performs significantly better, in terms of routing efficiency and of throughput, compared to a classical implementation of NEMO
Registration delay is a significant issue for mobile network due to increase traffic load with hando...
NEMO-BSP is the result of MIPV6 development that lacks mobility support in NEMO. Therefore, in this ...
With the aim of comprehending inadequacies of basic NEMO (named as Network Mobility Basic Support Pr...
International audienceThe present paper focuses on the quantitative and qualitative performance anal...
International audienceThis paper is focused on boosting network mobility Basic support protocol (NEM...
The protocol which is considered as a most widespread Mobility Management Protocol (MMP) is entitled...
Network mobility is an established topic of research which has the potential capability to support m...
With the worldwide deployment of different wireless access technologies and expanding requests for w...
The development of mobile IPv6 protocol marked the first attempt to support mobility of individual d...
Handof management is an indispensable component in supporting network mobility. The handof situatio...
As a demand of accessing Internet is increasing dramatically, host mobility becomes insufficient to ...
Special issue for Vehicular Ad Hoc NetworksInternational audienceMobile Ad hoc Network (MANET) routi...
Signaling overhead is a significant issue for mobile network due to increase traffic load with packe...
International audienceMobile Adhoc Network (MANET) routing protocol and NEMO basic support protocol ...
Registration delay is a significant issue for mobile network due to increase traffic load with hando...
NEMO-BSP is the result of MIPV6 development that lacks mobility support in NEMO. Therefore, in this ...
With the aim of comprehending inadequacies of basic NEMO (named as Network Mobility Basic Support Pr...
International audienceThe present paper focuses on the quantitative and qualitative performance anal...
International audienceThis paper is focused on boosting network mobility Basic support protocol (NEM...
The protocol which is considered as a most widespread Mobility Management Protocol (MMP) is entitled...
Network mobility is an established topic of research which has the potential capability to support m...
With the worldwide deployment of different wireless access technologies and expanding requests for w...
The development of mobile IPv6 protocol marked the first attempt to support mobility of individual d...
Handof management is an indispensable component in supporting network mobility. The handof situatio...
As a demand of accessing Internet is increasing dramatically, host mobility becomes insufficient to ...
Special issue for Vehicular Ad Hoc NetworksInternational audienceMobile Ad hoc Network (MANET) routi...
Signaling overhead is a significant issue for mobile network due to increase traffic load with packe...
International audienceMobile Adhoc Network (MANET) routing protocol and NEMO basic support protocol ...
Registration delay is a significant issue for mobile network due to increase traffic load with hando...
NEMO-BSP is the result of MIPV6 development that lacks mobility support in NEMO. Therefore, in this ...
With the aim of comprehending inadequacies of basic NEMO (named as Network Mobility Basic Support Pr...