Mobile Structural Health Monitoring Based on Legged Robots

IF 2.7 Q2 CONSTRUCTION & BUILDING TECHNOLOGY
Kay Smarsly, Kosmas Dragos, Jan Stührenberg, Mathias Worm
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引用次数: 1

Abstract

With the advancements in information, communication, and sensing technologies, structural health monitoring (SHM) has matured into a substantial pillar of infrastructure maintenance. In particular, wireless sensor networks have gradually been incorporated into SHM, leveraging new opportunities towards reduced installation efforts and enhanced flexibility and scalability, as compared to cable-based SHM systems. However, wireless sensor nodes are installed at fixed locations and need to be employed at high density to reliably monitor large infrastructure, which may cause high installation costs. Furthermore, the limited power autonomy of wireless sensor networks, installed at fixed locations for unattended long-term operation, still represents a significant constraint when deploying stationary wireless sensor nodes for SHM. To resolve the critical constraints stemming from costly high-density deployment and limited power autonomy, a mobile structural health monitoring concept based on legged robots is proposed in the study reported in this paper. The study explores the accuracy and cost-efficiency of deploying legged robots in dense measurement setups for wireless SHM of civil infrastructure, aiming to gain insights into the advantages of mobile wireless sensor nodes in general and of legged robots in particular, in terms of obtaining rich information on the structural condition. As is shown in this paper, the legged robots, as compared to stationary wireless sensor nodes, require a smaller number of nodes to be deployed in civil infrastructure to achieve rich sensor information, entailing more cost-efficient, yet accurate, SHM. In conclusion, this study represents a first step towards autonomous robotic fleets advancing structural health monitoring.
基于腿式机器人的移动结构健康监测
随着信息、通信和传感技术的进步,结构健康监测(SHM)已经成熟成为基础设施维护的重要支柱。特别是,无线传感器网络已逐渐纳入SHM,与基于电缆的SHM系统相比,利用新的机会减少安装工作量,提高灵活性和可扩展性。然而,无线传感器节点安装在固定位置,需要高密度部署,以可靠地监控大型基础设施,这可能会导致较高的安装成本。此外,无线传感器网络的电力自主性有限,安装在固定位置以进行无人值守的长期运行,这仍然是部署固定无线传感器节点用于SHM时的一个重大限制。为了解决昂贵的高密度部署和有限的动力自主性所带来的关键限制,本文提出了一种基于腿式机器人的移动结构健康监测概念。本研究探讨了在民用基础设施无线SHM密集测量设置中部署有腿机器人的准确性和成本效益,旨在深入了解移动无线传感器节点,特别是有腿机器人在获取丰富结构条件信息方面的优势。正如本文所示,与固定的无线传感器节点相比,有腿机器人需要较少的节点部署在民用基础设施中,以获得丰富的传感器信息,从而实现更经济、更准确的SHM。总之,这项研究代表了自主机器人车队推进结构健康监测的第一步。
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
Infrastructures
Infrastructures Engineering-Building and Construction
CiteScore
5.20
自引率
7.70%
发文量
145
审稿时长
11 weeks
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