Wireless sensor and actuator networks with delayed noisy feedback (WiSAN)

IEEE International Conference on Wireless for Space and Extreme Environments Pub Date : 2013-11-01 DOI:10.1109/WiSEE.2013.6737575
Lonnie Labonte, Joel Castro, Mojtaba Razfar, A. Abedi, Ramin Rezaei, Fady Ghabrial, P. Shankar, E. Besnard
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引用次数: 5

Abstract

Various control applications such as aerospace vehicles and automotive control systems can benefit from lower weight and cost. Replacing wired feedback control with wireless sensor and actuator networks (WiSAN) offers attractive features by improving upon the weight and cost problems, while posing new challenges due to the delayed noisy feedback links. Addressing these challenges requires modeling and simulation of WiSAN with noise and delay implemented in the feedback path. A model with Additive White Gaussian Noise and Constant Delay (AWGN-CD) is used in this research. This study provides insight for designing WiSAN for a variety of scenarios, where weight and cost is of concern.
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延迟噪声反馈(WiSAN)无线传感器和执行器网络
各种控制应用,如航空航天飞行器和汽车控制系统可以受益于更低的重量和成本。用无线传感器和执行器网络(WiSAN)取代有线反馈控制,通过改善重量和成本问题提供了有吸引力的功能,同时由于延迟的噪声反馈链路带来了新的挑战。解决这些挑战需要在反馈路径中实现带有噪声和延迟的WiSAN建模和仿真。该模型采用加性高斯白噪声和恒定延迟模型(AWGN-CD)。本研究为在各种需要考虑重量和成本的情况下设计WiSAN提供了见解。
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IEEE International Conference on Wireless for Space and Extreme Environments
IEEE International Conference on Wireless for Space and Extreme Environments
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