Seamless inter-technology mobility is one of the fundamental requirements of next generation mobile networks. For seamless mobility, handover delay and packet loss should be minimized. However, existing solutions suffer from a number of shortcomings in satisfying these requirements: first, handover preparation schemes fail to minimize the handover delay as much as possible. Second, minimizing packet loss which is usually using soft handover (SHO) schemes are excessively wasteful of scarce resources. In this paper, we propose the uninterrupted proactive connection transfer for IMS mobility enhancement (UPTIME) mobility framework which achieves seamless mobility while minimizing excessive power and radio resource consumption. UPTIME incorpora...
In the recent years, mobile devices such as cell phones, notebook or ultra mobile computers and vide...
Abstract--In next-generation wireless networks, mobile nodes (MNs) need to freely change their netwo...
The Internet access paradigm is changing and a wide range of overlapping radio access technologies, ...
The Next Generation Mobile Network (NGMN) is expected to include integration of wireless technologie...
The most prevailing feature that led to the massive success of current Wireless Mobile Tele-Communic...
The next generation wireless network is predicted to be a heterogeneous network of various wireless ...
Next-generation heterogeneous wireless networks provide flexibility to access IP multimedia services...
The tremendous growth of mobile devices and their attendant applications demand for wireless communi...
The increasing proliferation of mobile devices along with the evolution of access technologies has ...
As host mobility and radio interference in wireless networks cause packet losses and delays, it is d...
The number of Internet users is expected to grow exponentially. To keep up with the growing demand a...
Femtocell technology has improved cellular coverage and capacity allowing the provision of rich and ...
The rapid increase in the usage of the mobile internet has led to a great expansion of cellular data...
There are an enormous number of applications that could benefit from Wireless Sensor Networks (WSN...
International audienceWireless networks bring a new market to service providers and terminal manufac...
In the recent years, mobile devices such as cell phones, notebook or ultra mobile computers and vide...
Abstract--In next-generation wireless networks, mobile nodes (MNs) need to freely change their netwo...
The Internet access paradigm is changing and a wide range of overlapping radio access technologies, ...
The Next Generation Mobile Network (NGMN) is expected to include integration of wireless technologie...
The most prevailing feature that led to the massive success of current Wireless Mobile Tele-Communic...
The next generation wireless network is predicted to be a heterogeneous network of various wireless ...
Next-generation heterogeneous wireless networks provide flexibility to access IP multimedia services...
The tremendous growth of mobile devices and their attendant applications demand for wireless communi...
The increasing proliferation of mobile devices along with the evolution of access technologies has ...
As host mobility and radio interference in wireless networks cause packet losses and delays, it is d...
The number of Internet users is expected to grow exponentially. To keep up with the growing demand a...
Femtocell technology has improved cellular coverage and capacity allowing the provision of rich and ...
The rapid increase in the usage of the mobile internet has led to a great expansion of cellular data...
There are an enormous number of applications that could benefit from Wireless Sensor Networks (WSN...
International audienceWireless networks bring a new market to service providers and terminal manufac...
In the recent years, mobile devices such as cell phones, notebook or ultra mobile computers and vide...
Abstract--In next-generation wireless networks, mobile nodes (MNs) need to freely change their netwo...
The Internet access paradigm is changing and a wide range of overlapping radio access technologies, ...