QoS-enabled Video Streaming in Wireless Sensor Networks

2010 Ninth IEEE International Symposium on Network Computing and Applications Pub Date : 2010-07-15 DOI:10.1109/NCA.2010.38

Song Guo, T. Little

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引用次数: 11

Abstract

Recent advances in wireless communications technology and low-power, low-cost CMOS imaging sensors enable a new sensing modality employing ubiquitous distributed video sensing. In many video sensing applications multimedia streams are often required by the base station to provide detailed information of the target spot in the sensor field. However, limited bandwidth, unstable network environment, and data transmission interference prevent the large-scale deployment of such applications without new strategies for energy and data capacity management. In this paper we propose a dynamic path formation algorithm based on our data path throughput estimation model. Coupled with a distributed TDMA packet scheduling scheme, this path formation algorithm can establish throughput-aware video delivery path between source and destination. OPNET simulation results indicate that the throughput estimation is accurate and our proposed TDMA scheme is preferred for streaming applications. We also explore the use of distributed mobile base stations as an option to improve the egress of video data streams from the system.

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无线传感器网络中支持qos的视频流

无线通信技术和低功耗、低成本CMOS成像传感器的最新进展使无处不在的分布式视频传感成为一种新的传感方式。在许多视频传感应用中，基站经常需要多媒体流来提供传感器场中目标点的详细信息。然而，如果没有新的能源和数据容量管理策略，有限的带宽、不稳定的网络环境和数据传输的干扰会阻碍此类应用的大规模部署。本文提出了一种基于数据路径吞吐量估计模型的动态路径形成算法。该路径形成算法与分布式TDMA分组调度方案相结合，可以在源端和目的端之间建立具有吞吐量感知的视频传输路径。OPNET仿真结果表明，吞吐量估计是准确的，我们提出的TDMA方案是流媒体应用的首选方案。我们还探讨了使用分布式移动基站作为一种选择，以改善从系统输出的视频数据流。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2010 Ninth IEEE International Symposium on Network Computing and Applications

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