1. Time-Dependent Performance Analysis of IEEE 802.11p Vehicular Networks.
- Author
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Xu, Kunjie, Tipper, David, Qian, Yi, and Krishnamurthy, Prashant
- Subjects
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VEHICULAR ad hoc networks , *TIME-varying systems , *STOCHASTIC processes , *IEEE 802.11 (Standard) , *SCALABILITY - Abstract
The performance of vehicular ad hoc networks (VANETs) is subject to frequent changes due to node mobility so that nonstationary/transient network behavior always exists. In addition, safety applications in VANETs are very sensitive to the real-time performance of delay and packet delivery ratio (PDR). Although there are extensive studies on the steady-state (SS) performance analysis of vehicular networks, little work exists on evaluating their time-varying behavior. In this paper, we develop a performance model to efficiently estimate the dynamic behavior of VANETs. In this paper, vehicle's transmission queue is modeled using fluid-flow (FF)-based differential equations, which are solved using numerical methods, whereas the network hearing topology is modeled by a time-varying adjacency matrix that can be determined from stochastic models, measurements, or discrete event simulations. Numerical results illustrate that our performance model is able to promptly respond to the ongoing dynamic conditions of VANETs and provide reasonably accurate performance results. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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