368-371The increase of mobile users compels the uses of picocells in cellular mobile communication and the task of handover becomes critical. Handover response should be faster and also should depend on mobile velocity to avoid unwanted call termination for high velocity mobiles and unnecessary handover for low velocity mobiles. In this paper, a path loss exponent and user-velocity-dependent variable hysteresis-margin-based call handover algorithm is proposed and studied. The handover algorithm is tested and found to give desired response
Abstract—Mobile communication towers are used in many in personal and industrial purposes. It provid...
In mobile radio communications, inter-cell handover is the process whereby a call in progress is mai...
This paper proposes a new Call Quality Measure based on mobile signal strength measurements to evalu...
In the age of global communications, heterogeneous networks are seen to be the best choice of strate...
In long-term evoluation (LTE) femtocell networks, hysteresis is one of the main parameters which aff...
In seamless and fast mobility, smooth handover is one of the major challenges in small cell heteroge...
The explosion in wireless telecommunication technologies has lead to a huge increase in the number o...
A mathematical formulation is developed for systematic tracking of the random movement of a mobile s...
In small cell wireless networks, fast and precise vertical handover decision making algorithms are n...
In mobile radio communications, inter-cell handover is the process whereby a call in progress is mai...
Statistical models for handover scenarios are necessary in order to identify key parameters and to a...
In this chapter we explain the principles of velocity estimation and review both analytically and us...
As the number of mobile users in cellular systems increases, the user mobility becomes the dominatin...
Handoff is very important concept in mobile computing. When a mobile user travels from one area of c...
Handover processes in micro-cellular systems are more involved than in cellular systems. In particul...
Abstract—Mobile communication towers are used in many in personal and industrial purposes. It provid...
In mobile radio communications, inter-cell handover is the process whereby a call in progress is mai...
This paper proposes a new Call Quality Measure based on mobile signal strength measurements to evalu...
In the age of global communications, heterogeneous networks are seen to be the best choice of strate...
In long-term evoluation (LTE) femtocell networks, hysteresis is one of the main parameters which aff...
In seamless and fast mobility, smooth handover is one of the major challenges in small cell heteroge...
The explosion in wireless telecommunication technologies has lead to a huge increase in the number o...
A mathematical formulation is developed for systematic tracking of the random movement of a mobile s...
In small cell wireless networks, fast and precise vertical handover decision making algorithms are n...
In mobile radio communications, inter-cell handover is the process whereby a call in progress is mai...
Statistical models for handover scenarios are necessary in order to identify key parameters and to a...
In this chapter we explain the principles of velocity estimation and review both analytically and us...
As the number of mobile users in cellular systems increases, the user mobility becomes the dominatin...
Handoff is very important concept in mobile computing. When a mobile user travels from one area of c...
Handover processes in micro-cellular systems are more involved than in cellular systems. In particul...
Abstract—Mobile communication towers are used in many in personal and industrial purposes. It provid...
In mobile radio communications, inter-cell handover is the process whereby a call in progress is mai...
This paper proposes a new Call Quality Measure based on mobile signal strength measurements to evalu...