ESPACENET: A Framework of Evolvable and Reconfigurable Sensor Networks for Aerospace–Based Monitoring and Diagnostics

First NASA/ESA Conference on Adaptive Hardware and Systems (AHS'06) Pub Date : 2006-06-15 DOI:10.1109/AHS.2006.34

T. Arslan, N. Haridas, Erfu Yang, A. Erdogan, Nick Barton, A. Walton, J. Thompson, A. Stoica, T. Vladimirova, K. Mcdonald-Maier, W. Howells

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引用次数: 45

Abstract

There is an increasing need to develop flexible, reconfigurable, and intelligent multi-spacecraft sensing networks for aerospace-based monitoring and diagnostics. Technical advancements in ad hoc networking, MEMS devices, low-power electronics, adaptive and reconfigurable hardware, micro-spacecraft, and micro-sensors have enabled the design and development of such highly integrated space wireless sensor networks. This paper proposes the framework for an evolvable sensor network architecture, investigated as part of the ESPACENET project, collocated at the University of Edinburgh, Essex, Kent and Surrey. The aim is to design a flexible and intelligent embedded network of reconfigurable piconodes optimised by a hierarchical multi-objective algorithm. Although the project is targeted at aerospace applications, the same intelligent network can be used for many earth bound applications such as environmental and medical diagnostics

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ESPACENET:用于航空航天监测和诊断的可进化和可重构传感器网络框架

越来越需要开发灵活、可重构和智能的多航天器传感网络，用于航空航天监测和诊断。自组织网络、MEMS器件、低功耗电子器件、自适应和可重构硬件、微型航天器和微型传感器的技术进步使这种高度集成的空间无线传感器网络的设计和开发成为可能。本文提出了一个可进化传感器网络架构的框架，作为ESPACENET项目的一部分进行了研究，该项目位于爱丁堡大学、埃塞克斯大学、肯特大学和萨里大学。目的是设计一个灵活、智能的可重构微管嵌入式网络，并采用分层多目标算法进行优化。虽然该项目的目标是航空航天应用，但同样的智能网络可用于许多与地球有关的应用，如环境和医疗诊断

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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First NASA/ESA Conference on Adaptive Hardware and Systems (AHS'06)

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