传感器群在封闭环境中漂浮的鲁棒重建

E. E. Duisterwinkel, Gijs Dubbelman, L. Demi, E. Talnishnikh, H. Wörtche, J. Bergmans
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引用次数: 1

摘要

一种用于探索封闭或其他难以进入的环境的新型应用需要大量的小型化传感器节点,当它们以“随波逐流”的方式遍历环境时进行测量。其中的例子是地下洞穴的勘探和工业管道或混合罐的检查,所有这些都有一个共同点,即环境难以进入,并且不允许使用GPS或类似技术进行位置确定。传感器节点需要缩小到毫米范围,以便物理地适应环境中最窄的部件,并且应该测量彼此之间的距离,以便能够在离线分析中重建彼此相对的位置。达到这些微型化水平并实现重建功能需要:1)能够处理毫米尺寸节点的特定测量限制和缺陷的新颖重建算法,以及2)提高对传感器节点高度约束的硬件设计空间与重建算法之间关系的理解。为此,本文提出了一种新颖的、高度鲁棒的传感器群重构算法,并研究了硬件设计权衡对算法性能的影响。我们的研究结果基于广泛的模拟,将重建算法推向了突破点,为毫米尺寸传感器节点的未来发展提供了重要的指导方针。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Robust reconstruction of sensor swarms floating through enclosed environments
A novel type of application for the exploration of enclosed or otherwise difficult to access environments requires large quantities of miniaturized sensor nodes to perform measurements while they traverse the environment in a “go with the flow” approach. Examples of these are the exploration of underground cavities and the inspection of industrial pipelines or mixing tanks, all of which have in common that the environments are difficult to access and do not allow position determination using e.g. GPS or similar techniques. The sensor nodes need to be scaled down towards the millimetre range in order to physically fit through the narrowest of parts in the environments and should measure distances between each other in order to enable the reconstruction of their positions relative to each other in offline analysis. Reaching those levels of miniaturization and enabling reconstruction functionality requires: 1) novel reconstruction algorithms that can deal with the specific measurement limitations and imperfections of millimetre-sized nodes, and 2) improved understanding of the relation between the highly constraint hardware design space of the sensor nodes and the reconstruction algorithms. To this end, this work provides a novel and highly robust sensor swarm reconstruction algorithm and studies the effect of hardware design trade-offs on its performance. Our findings based on extensive simulations, which push the reconstruction algorithm to its breaking point, provide important guidelines for the future development of millimetre-sized sensor nodes.
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