F. Federici, R. Alesii, A. Colarieti, F. Graziosi, M. Faccio
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引用次数: 13
摘要
该工作涉及电池供电的无线传感平台的设计、实现和验证,用于长期结构健康监测。该平台(WESTmote)已被开发用于现实世界的目标应用,即对一座纪念性建筑(意大利拉奎拉的Basilica S. Maria di Collemaggio)进行至少两年的震后裂缝监测。WESTmote主要面向在恶劣环境中执行应变和变形测量,并支持电阻传感器接口。深入分析了低能耗驱动设计和面向网络鲁棒性的软件体系结构,包括通信栈和测量相关功能。讨论了开发的体系结构在不同监控场景中使用的灵活性。最后,在实验验证的基础上,对所提出的平台性能和寿命进行了详细的评估。
Design and validation of a wireless sensor node for long term structural health monitoring
The work deals with the design, implementation and validation of a battery powered wireless sensing platform for long term structural health monitoring. The platform (WESTmote) has been developed for use in a real world target application, a minimum two-year long post-earthquake crack monitoring campaign of a monumental building (the Basilica S. Maria di Collemaggio in L'Aquila, Italy). WESTmote is primarily oriented to the execution of strain and deformation measurements in harsh environments and natively supports resistive sensors interfacing. Low energy driven design, along with network robustness oriented software architecture, including communication stack and measurement related functions, are deeply analyzed. Flexibility of developed architecture for use in different monitoring scenarios is discussed. Finally, a detailed evaluation of proposed platform performances and lifetime based on experimental validation is presented.
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