| Bibliography | Tian, Jing; Hähner, Jörg; Becker, Christian; Stepanov, Illya; Rothermel, Kurt: Graph-Based Mobility Model for Mobile Ad Hoc Network Simulation.
In: IEEE Computer Society Press (ed.): Proceedings of the 35th Annual Simulation Symposium: San Diego, California, April 14-18, 2002.
University of Stuttgart, Faculty of Computer Science.
pp. 337-345, english.
Washington, Brussels, Tokyo: IEEE Computer Society Press, April 14, 2002.
ISBN: 0-7695-1552-5.
Article in Proceedings (Conference Paper).
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| Corporation | Society for Computer Simulation (SCS) |
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| CR-Schema | I.6 (Simulation and Modeling)
G.3 (Probability and Statistics)
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| Keywords | Mobility Model; Mobile Ad Hoc Network; Simulation; Spatial Model |
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| Abstract | Imagine a world where people constantly try to pass through walls and cars suddenly leave the roads and drive into rivers. Although this is unrealistic, most simulations for mobile ad hoc networks so far are based on the so called "random walk" of mobile objects, which are not constrained by their surrounding spatial environments. In this paper we propose a novel graph-based mobility model, which provides a more realistic movement than the random walk model by reflecting the spatial constraints in the real world. We analyzed three commonly used ad hoc network routing protocols, DSDV, DSR and AODV with both a random walk-based and our graph-based mobility model. Our simulation results show that the spatial constraints have a strong impact on the performance of ad hoc routing protocols.
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| Copyright | 2002 IEEE |
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| Contact | canu@informatik.uni-stuttgart.de |
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| Department(s) | University of Stuttgart, Institute of Parallel and Distributed High-Performance Systems, Distributed Systems
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| Project(s) | Canu
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| Entry date | May 27, 2002 |
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