A Novel Structural Health Monitoring System with Wireless Power and Bi-directional Data Transfer

Yujin Jangs, Keon-Woo Kim, Moo-Hyun Park, Nayoung Lee, G. Moon
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引用次数: 1

Abstract

This paper proposes a novel structural health monitoring (SHM) system for wireless sensor node (WSN) that enables power and physical data of WSN to be transmitted bi-directionally. The main point is system overview, the analysis, and implementation of proto-type SHM system. Conventional method of data transmission for SHM system is cable based sensor or WSN with battery. These result in high maintenance cost. To improve them, a novel SHM system with wireless power and data transfer (WPDT) is proposed. The proposed system has a WSN, primary control switch, load variation switch, and a modulation circuit for data transmission. It detects packetized digital data of the WSN by using load variation switch with WPDT method. Then, these demodulation circuit converts them to WSN data. Therefore, the proposed SHM system can reduce maintenance cost of the smart bridge by eliminating the communication module for data transmission. The WPDT method is implemented to assess validity. Wireless power is transferred to the WSN with a distance of 300 mm under concrete structure with steel rebar array. In addition, data transmission is properly conducted between primary resonator side and secondary resonator side with a 500bps data rate. Finally, a proto-type SHM system for the WSN has been built to experimentally evaluate the effectiveness. The results show that it operates the WSN by using wireless power and enables the WSN to transmit physical data of a smart bridge for damaged or undamaged conditions.
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一种新型的无线供电和双向数据传输结构健康监测系统
提出了一种新型的无线传感器节点结构健康监测系统,实现了无线传感器节点的功率和物理数据的双向传输。主要是系统概述,分析和实现原型SHM系统。SHM系统的传统数据传输方式是基于电缆的传感器或带电池的WSN。这导致了高昂的维护成本。为此,提出了一种基于无线供电和数据传输(WPDT)的SHM系统。该系统具有无线传感器网络、主控开关、负载变化开关和数据传输调制电路。采用负载变化开关和WPDT方法对WSN的数字数据进行分组检测。然后,这些解调电路将其转换为WSN数据。因此,所提出的SHM系统可以通过消除数据传输的通信模块来降低智能桥的维护成本。采用WPDT方法进行有效性评估。在钢筋阵列混凝土结构下,无线电力传输到距离为300mm的无线传感器网络。主腔侧与副腔侧之间数据传输正常,数据速率为500bps。最后,建立了一个用于WSN的原型SHM系统来实验评估其有效性。结果表明,该方法利用无线电源对传感器网络进行操作,使传感器网络能够在损坏或未损坏的情况下传输智能桥梁的物理数据。
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