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NTIS 바로가기Structure and infrastructure engineering : maintenance, management, life-cycle design and performance, v.10 no.4, 2014년, pp.534 - 550
Yun, Chung-Bang , Cho, Soojin , Park, Hyun-Jun , Min, Jiyoung , Park, Jong-Woong
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An, Yun‐Kyu, Sohn, Hoon. Instantaneous crack detection under varying temperature and static loading conditions. Structural control and health monitoring, vol.17, no.7, 730-741.
Baptista, F.G., Filho, J.V.. A New Impedance Measurement System for PZT-Based Structural Health Monitoring. IEEE transactions on instrumentation and measurement, vol.58, no.10, 3602-3608.
Proceedings of ISSS-SPIE Conferences on Smart Materials Structures and Systems 2002
Chaudhry, Z., Ganino, A.J.. Damage Detection Using Neural Networks: An Initial Experimental Study on Debonded Beams. Journal of intelligent material systems and structures, vol.5, no.4, 585-589.
Cho, Soojin, Jo, Hongki, Jang, Shinae, Park, Jongwoong, Jung, Hyung-Jo, Yun, Chung-Bang, Spencer, Billie F. Jr., Seo, Ju-Won. Structural health monitoring of a cable-stayed bridge using wireless smart sensor technology: data analyses. Smart structures and systems, vol.6, no.5, 461-480.
Clarke, T., Simonetti, F., Rohklin, S., Cawley, P.. Development of a low-frequency high purity A0 mode transducer for SHM applications. IEEE transactions on ultrasonics, ferroelectrics, and frequency control, vol.56, no.7, 1457-1468.
Journal of Intelligent Material Systems and Structures Giurgiutiu V. 802 10 1999 10.1106/N0J5-6UJ2-WlGV-Q8MC
Proceedings of 5th Workshop on Structural Health Monitoring 2005
ISHMP (2011). http://shm.cs.uiuc.edu/ (website).
Jang, Shinae, Jo, Hongki, Cho, Soojin, Mechitov, Kirill, Rice, Jennifer A., Sim, Sung-Han, Jung, Hyung-Jo, Yun, Chung-Bangm, Spencer, Billie F. Jr., Agha, Gul. Structural health monitoring of a cable-stayed bridge using smart sensor technology: deployment and evaluation. Smart structures and systems, vol.6, no.5, 439-459.
Proceedings of the SPIE Smart Structures/NDE Conference 2011
Asian Pacific Workshop on Structural Health Monitoring 2010
Koo, Ki-Young, Park, Seunghee, Lee, Jong-Jae, Yun, Chung-Bang. Automated Impedance-based Structural Health Monitoring Incorporating Effective Frequency Shift for Compensating Temperature Effects. Journal of intelligent material systems and structures, vol.20, no.4, 367-377.
Korea Society of Civil Engineers (2006). Korean design guidelines of steel cable-supported bridges. Seoul, Korea: Haklimsa[in Korean].
Jun Lee, Sang, Sohn, Hoon. Active self-sensing scheme development for structural health monitoring. Smart materials & structures, vol.15, no.6, 1734-1746.
Liang, C., Sun, F.P., Rogers, C.A.. Coupled Electro-Mechanical Analysis of Adaptive Material Systems - Determination of the Actuator Power Consumption and System Energy Transfer. Journal of intelligent material systems and structures, vol.5, no.1, 12-20.
Lopes Jr., Vicente, Park, Gyuhae, Cudney, Harley H., Inman, Daniel J.. Impedance-Based Structural Health Monitoring with Artificial Neural Networks. Journal of intelligent material systems and structures, vol.11, no.3, 206-214.
Proceedings of SPIE Annual Symposium on Smart Structures and Materials 2004
Mascarenas, David L, Todd, Michael D, Park, Gyuhae, Farrar, Charles R. Development of an impedance-based wireless sensor node for structural health monitoring. Smart materials & structures, vol.16, no.6, 2137-2145.
MEMSIC (2011). http://www.memsic.com/ (website).
Min, Jiyoung, Park, Seunghee, Yun, Chung-Bang. Impedance-based structural health monitoring using neural networks for autonomous frequency range selection. Smart materials & structures, vol.19, no.12, 125011-.
Min, Jiyoung, Park, Seunghee, Yun, Chung-Bang, Song, Byunghun. Development of a low-cost multifunctional wireless impedance sensor node. Smart structures and systems, vol.6, no.5, 689-709.
Min, J., Park, S., Yun, C.B., Lee, C.G., Lee, C.. Impedance-based structural health monitoring incorporating neural network technique for identification of damage type and severity. Engineering structures, vol.39, 210-220.
Moulin, Emmanuel, Assaad, Jamal, Delebarre, Christophe, Kaczmarek, Henri, Balageas, Daniel. Piezoelectric transducer embedded in a composite plate: Application to Lamb wave generation. Journal of applied physics, vol.82, no.5, 2049-2055.
Nagayama, T., Sim, S.H., Miyamori, Y., Spencer, B.F. Jr.. Issues in structural health monitoring employing smart sensors. Smart structures and systems, vol.3, no.3, 299-320.
Okafor, A Chukwujekwu, Chandrashekhara, K, Jiang, Y P. Delamination prediction in composite beams with built-in piezoelectric devices using modal analysis and neural network. Smart materials & structures, vol.5, no.3, 338-347.
Overly, Timothy G S, Park, Gyuhae, Farinholt, Kevin M, Farrar, Charles R. Development of an extremely compact impedance-based wireless sensing device. Smart materials & structures, vol.17, no.6, 065011-.
Laser-based wireless active sensing techniques for structural health monitoring of civil infrastructures 2011
PARK, Gyuhae, KABEYA, Kazuhisa, CUDNEY, Harley H., INMAN, Daniel J.. Impedance-Based Structural Health Monitoring for Temperature Varying Applications.. JSME international journal. Series A, Solid mechanics and material engineering, vol.42, no.2, 249-258.
Smart Materials and Structures Park S. 1 18 2009
Park, G., Sohn, H., Farrar, C. R., Inman, D. J.. Overview of Piezoelectric Impedance-Based Health Monitoring and Path Forward. The Shock and vibration digest : a publication of the Shock and Vibration Information Center, Naval Research Laboratory, vol.35, no.6, 451-464.
Park, Hyun-Jun, Sohn, Hoon, Yun, Chung-Bang, Chung, Joseph, Kwon, Il-Bum. A wireless guided wave excitation technique based on laser and optoelectronics. Smart structures and systems, vol.6, no.5, 749-765.
Park, Hyun-Jun, Sohn, Hoon, Yun, Chung-Bang, Chung, Joseph, Lee, Michael M S. Wireless guided wave and impedance measurement using laser and piezoelectric transducers. Smart materials & structures, vol.21, no.3, 035029-.
Proceedings of SPIE Annual Symposium on Smart Structures and Materials and Nondestructive Evaluation and Health Monitoring 2011
Proceedings of Noise Vibration Engineerin 2006
Raghavan, A., Cesnik, C. E. S.. Review of Guided-wave Structural Health Monitoring. The Shock and vibration digest : a publication of the Shock and Vibration Information Center, Naval Research Laboratory, vol.39, no.2, 91-114.
Rice, Jennifer A., Mechitov, Kirill, Sim, Sung-Han, Nagayama, Tomonori, Jang, Shinae, Kim, Robin, Spencer, Billie F. Jr., Agha, Gul, Fujino, Yozo. Flexible smart sensor framework for autonomous structural health monitoring. Smart structures and systems, vol.6, no.5, 423-438.
Proceeding of JSCE 501/1-29 1994
Spencer, B.F.Jr, & Cho, S. (2011). Wireless smart sensor technology for monitoring civil infrastructure: Technological developments and full-scale applications. Seoul, Korea: The 2011 World Congress on Advances in Structural Engineering and Mechanics (ASEM′11+).
Proceedings of Structural Dynamics and Materials 1996
Proceedings of SPIE Annual Symposium on Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems 2009
Yun, Chung-Bang, Lee, Jong-Jae, Koo, Ki-Young. Smart structure technologies for civil infrastructures in Korea: recent research and applications. Structure and infrastructure engineering : maintenance, management, life-cycle design and performance, vol.7, no.9, 673-688.
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