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针对无线多媒体传感器网络(wireless multimedia sensor network,WMSN)在多路视频并发传输性能方面缺乏定量化评估的问题,对WMSN的并发性能进行了建模分析与实验验证.首先利用排队论和概率论原理构造了一个基于IEEE 802.11的WMSN数据链路层延迟模型,为实验提供理论依据.而后实验测量了基于IEEE 802.11的WMSN在不同网络拓扑下,不同因素(如距离、跳数、并发视频数)对视频评价指标(延迟、抖动、信道利用率)的影响.理论及实验结果表明,IEEE 802.11协议仅能支持四路以下视频并发传输,不适合高并发视频传输,亟待开展WMSN专属协议及算法的研究.
Aiming at the lack of quantitative assessment of wireless multimedia sensor network (WMSN) in multi-channel video concurrency transmission performance, the WMSN concurrency performance is modeled and validated experimentally.Firstly, using queuing theory and probability theory A WLCN data link layer delay model based on IEEE 802.11 is constructed to provide a theoretical basis for the experiment.Finally, experiments are conducted to measure the influence of different factors (such as distance, number of hops, number of concurrent videos) on WMSN based on IEEE 802.11 in different network topologies Video evaluation index (delay, jitter, channel utilization) .The theoretical and experimental results show that the IEEE 802.11 protocol can only support the following four video transmission is not suitable for high-concurrency video transmission, the WMSN proprietary protocols and algorithms .