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http://dx.doi.org/10.9712/KASS.2017.17.4.093

The Evaluation of Communication Distance Using Wireless MEMS Sensor in Building Structure  

Lee, Jong-Ho (Dept. of Architecture, Seoul National University of Science and Technology)
Cheon, Dong-Jin (Dept. of Architecture, Seoul National University of Science and Technology)
Yoon, Sung-Won (School of Architecture, Seoul National University of Science and Technology)
Publication Information
Journal of Korean Association for Spatial Structures / v.17, no.4, 2017 , pp. 93-102 More about this Journal
Abstract
Wireless MEMS sensors have common features such as wireless communication, data measurement, embedded processing, battery-based self-power, and low cost, and increased measurement effectiveness. Wireless MEMS sensors enable efficient SHM without interfering with location because there is no requirement for triboelectric noise and cumbersome cables. However, there is little research on the communication distance with sensors and data. For instance, existing researches have limited communication distance experiments in civil engineering bridges. It is also necessary to investigate the characteristics of dynamic behavior and the communication distance of architectural structures with different wireless transmission/reception environments. Therefore, in a building structure with walls and slabs instead of open spaces, MEMS sensors and data loggers were used as distance experiments where communication disturbance between the vertical slab and the horizontal wall could actually be communicated.
Keywords
Communication distance; Measurement; Wireless; MEMS; ICP; SHM;
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Times Cited By KSCI : 5  (Citation Analysis)
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1 J. H. Lee, S. W. Yoon, The Evaluation of Effectiveness on Horizontal Transient Vibration Measurement of Low-rise Building Using Wireless MEMS Sensor, Journal of Korean Association for Spatial Structures, Vol. 17, No. 3, pp. 55-62, September, 2017
2 Spencer, B. F., Ruiz-Sandoval, M. E., Kurata, N., Smart sensing technology: opportunities and challenges, Structural Control and Health Monitoring, 11(4), 349-368.   DOI
3 E. J. Kim, S. J. Cho, S. H. Sim, A Recent Research Summary on Smart Sensors for Structural Health Monitoring, Journal of the Korea Institute for Structural Maintenance and Inspection, Vol. 19, No. 3, pp. 010-021, May, 2015
4 J. H. Yi, H. S. O., C. B. Yun, Performance Evaluation of Smart Accelerometers for Structural Health Monitoring, Journal of the Korea Society of Civil Engineering, Vol. 26, No. 4, pp. 605-609, 2006
5 H. J. Kim, B. Y. Kim, W. J. Kim, Evaluation of Wireless MEMS Sensor for System Identification of Building Structures, Architectural Institute of Korea, Vol. 25, No. 11, pp.3-10, 2009
6 G. H. Heo, W. S. Lee, M. G. Kim, Structural Health Monitoring System Employing Smart Sensor Technology Part 1: Development and Performance Test of Smart Sensor, Korea Institute for Structural Maintenance and Inspection, Vol. 11, No. 02, pp.134-144, 2007
7 A. Sabato, Maria Q. Feng, Feasibility of Frequency-Modulated Wireless Transmission for a Multi-Purpose MEMS-Based Accelerometer, Sensor, Vol. 14, 2014
8 A. S. Maria Q., F. Y. Fukuda, D. L. Carni, Member, IEEE, G. F. Fortino, Senior Member, IEEE, A Novel Wireless Accelerometer Board for Measurig Low-Frequency and Low-Amplitude Structural Vibration, IEEE Sensors Journal, Vol. 16, May 1, 2016
9 J. H. Lee, S. W. Yoon, Analysis of Vibration Measurement Performance of Wireless MEMS Sensor, Proceedings of Korean Association for Spatial Structures, Vol. 13, No. 1, May. 26. 2017
10 http://www.witree.co.kr/banner_02/1550
11 Kurata, N., Suzuki, m., Saruwatari, S., Morikawa, H., Actual Application of Ubiquitous Structural Monitoring System using Wireless Sensor Networks, Proceedings of The 14Th World Conference on Earthquake Engineering, October 12-17, 2008, Beijing, China
12 Microstrain, G-Link-200 Datasheet (8400- 0102) RevA-10, Williston, 2017
13 Microstrain, WSDA-USB_Datasheet_8400-0074, Williston, 2017