The shadow cluster concept for resource allocation and call admission in ATM-based wireless networks
MobiCom '95 Proceedings of the 1st annual international conference on Mobile computing and networking
A class of mobile motion prediction algorithms for wireless mobile computing and communication
Mobile Networks and Applications - Special issue: routing in mobile communications networks
Mobility prediction and routing in ad hoc wireless networks
International Journal of Network Management
International Journal of Network Management
GPS-free Positioning in Mobile Ad Hoc Networks
Cluster Computing
Using Dempster-Shafer's Theory of Evidence to Combine Aspects of Information Use
Journal of Intelligent Information Systems
ICON '00 Proceedings of the 8th IEEE International Conference on Networks
A unifying look at clustering in mobile ad hoc networks: Research Articles
Wireless Communications & Mobile Computing - Special Issue: Mobility Management in Wireless and Mobile Networks
QoS provisioning in cellular networks based on mobility prediction techniques
IEEE Communications Magazine
Message Correlation and Business Protocol Discovery in Service Interaction Logs
CAiSE '08 Proceedings of the 20th international conference on Advanced Information Systems Engineering
An adaptive MST-based topology connectivity control algorithm for wireless ad-hoc networks
International Journal of Communication Networks and Distributed Systems
Exploiting mobile ad hoc networking and knowledge generation to achieve ambient intelligence
Applied Computational Intelligence and Soft Computing
Mobility prediction in mobile wireless networks
Journal of Network and Computer Applications
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The ad hoc networks are completely autonomous wireless networks where all the users are mobile. These networks do not work on any infrastructure and the mobiles communicate either directly or via other nodes of the network by establishing routes. These routes are prone to frequent ruptures because of nodes mobility. If the future movement of the mobile can be predicted in a precise way, the resources reservation can be made before be asked, which enables the network to provide a better QoS. In this aim, we propose a virtual dynamic topology, which on one hand, will organize the network as well as possible and decreases the impact of mobility, and on the other hand, is oriented user mobility prediction. Our prediction scheme uses the evidence theory of Dempster-Shafer in order to predict the future position of the mobile by basing itself on relevant criteria. These ones are related to mobility and network operation optimisation. The proposed scheme is flexible and can be extended to a general framework. To show the relevance of our scheme, we combine it with a routing protocol. Then, we implemented the prediction-oriented topology and the prediction scheme which performs on it. We implemented also a mobility prediction based routing protocol. Simulations are made according to a set of elaborate scenarios.