Structural health monitoring using wireless sensing systems with embedded processing

被引:10
|
作者
Tanner, NA [1 ]
Farrar, CR [1 ]
Sohn, H [1 ]
机构
[1] Stanford Univ, Dept Engn Mech, Palo Alto, CA 94309 USA
来源
NONDESTRUCTIVE EVALUATION AND HEALTH MONITORING OF AEROSPACE MATERIALS AND CIVIL INFRASTRUCTURES | 2002年 / 4704卷
关键词
structural health monitoring; statistical pattern recognition; wireless sensing; MEMS; time series analysis; and damage detection;
D O I
10.1117/12.470728
中图分类号
TH [机械、仪表工业];
学科分类号
0802 ;
摘要
A damage detection system was developed with commercially available wireless sensors. Statistical process control methods were used to monitor the correlation of vibration data from two accelerometers mounted across a joint. Changes in correlation were used to detect damage to the joint. All data processing was done remotely on a microprocessor integrated with the wireless sensors to allow for the transmission of a simple damaged or undamaged status for each monitored joint. Additionally, a portable demonstration structure was developed to showcase the capabilities of the damage detection system to monitor joint failure in real time.
引用
收藏
页码:215 / 224
页数:10
相关论文
共 50 条
  • [21] Development of an embedded wireless sensing system for the monitoring of concrete
    Quinn, William
    Kelly, Ger
    Barrett, John
    STRUCTURAL HEALTH MONITORING-AN INTERNATIONAL JOURNAL, 2012, 11 (04): : 381 - 392
  • [22] A wireless structural health monitoring system with multithreaded sensing devices: design and validation
    Wang, Yang
    Lynch, Jerome P.
    Law, Kincho H.
    STRUCTURE AND INFRASTRUCTURE ENGINEERING, 2007, 3 (02) : 103 - 120
  • [23] Wireless Displacement Sensing Enabled by Metamaterial Probes for Remote Structural Health Monitoring
    Ozbey, Burak
    Unal, Emre
    Ertugrul, Hatice
    Kurc, Ozgur
    Puttlitz, Christian M.
    Erturk, Vakur B.
    Altintas, Ayhan
    Demir, Hilmi Volkan
    SENSORS, 2014, 14 (01) : 1691 - 1704
  • [24] Low-power computation methods and self-powered systems for Structural Health Monitoring techniques using Lamb waves for embedded sensing
    Lallart, M.
    Guyomar, D.
    Monnier, T.
    SHOCK AND VIBRATION, 2012, 19 (05) : 867 - 877
  • [25] Edge Structural Health Monitoring (E-SHM) Using Low-Power Wireless Sensing
    Buckley, Tadhg
    Ghosh, Bidisha
    Pakrashi, Vikram
    SENSORS, 2021, 21 (20)
  • [26] Effectiveness of Compressed Sensing and Transmission in Wireless Sensor Networks for Structural Health Monitoring
    Fujiwara, Takahiro
    Uchiito, Haruki
    Tokairin, Tomoya
    Kawai, Hiroyuki
    SENSORS AND SMART STRUCTURES TECHNOLOGIES FOR CIVIL, MECHANICAL, AND AEROSPACE SYSTEMS 2017, 2017, 10168
  • [27] A Method of Signal Sparse in Wireless structural health monitoring based on Compressive Sensing
    Ji, Sai
    Yang, Ping
    Guo, Ping
    Xu, Xin
    Wang, Jin
    Sun, Yajie
    INTELLIGENT SYSTEMS AND APPLICATIONS (ICS 2014), 2015, 274 : 2011 - 2018
  • [28] An innovative embedded wireless sensor network system for the structural health monitoring of RC structures
    Angrisani, L.
    Lo Moriello, R. Schiano
    Bonavolonta, F.
    Gallucci, L.
    Menna, C.
    Asprone, D.
    Fabbrocino, F.
    2017 IEEE 3RD INTERNATIONAL FORUM ON RESEARCH AND TECHNOLOGIES FOR SOCIETY AND INDUSTRY (RTSI), 2017, : 306 - 309
  • [29] Structural Health Monitoring of Infrastructure Using Wireless Sensor System
    Ha, Dae Woong
    Park, Jun Su
    Kim, Jong Moon
    Park, Hyo Seon
    AD HOC NETWORKS, ADHOCNETS 2014, 2014, 140 : 228 - 234
  • [30] A Structural Health Monitoring System Using Wireless Sensor Network
    Niu, Jianjun
    Deng, Zhidong
    Zhou, Fengguang
    Cao, Zongsheng
    Liu, Zhanqing
    Zhu, Fangzhou
    2009 5TH INTERNATIONAL CONFERENCE ON WIRELESS COMMUNICATIONS, NETWORKING AND MOBILE COMPUTING, VOLS 1-8, 2009, : 3228 - +
12345