A Recent Research Summary on Smart Sensors for Structural Health Monitoring
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Kim, Eun-Jin
(울산과학기술대학교 도시환경공학부)
Cho, Soo-Jin (울산과학기술대학교 도시환경공학부) Sim, Sung-Han (울산과학기술대학교 도시환경공학부) |
| 1 | Bilbao, A., Hoover, D., Rice, J., and Chapman, J. (2011), Ultra-low power wireless sensing for long-term structural health monitoring, Proceedings of SPIE Smart Structures and Materials+ Nondestructive Evaluation and Health Monitoring, International Society for Optics and Photonics, 798109-1-798109-14. |
| 2 | Bocca, M., Toivola, J., Eriksson, L. M., Hollmen, J., & Koivo, H. (2011), Structural health monitoring in wireless sensor networks by the embedded Goertzel algorithm, Proceedings of the 2011 IEEE/ACM Second International Conference on Cyber-Physical Systems, IEEE Computer Society, 206-214. |
| 3 | Buchli, B., Sutton, F., and Beutel, J. (2012), GPS-equipped wireless sensor network node for high-accuracy positioning applications, Wireless Sensor Networks, Springer Berlin Heidelberg, 179-195. |
| 4 | Casciati, S., and Chen, Z. (2011), A multi-channel wireless connection system for structural health monitoring applications, Structural Control and Health Monitoring, 18(5), 588-600. DOI ScienceOn |
| 5 | Cho, S., Jo, H., Jang, S., Park, J., Jung, H. J., Yun, C. B., Spencer Jr, B. F., and Seo, J. W. (2010), Structural health monitoring of a cable-stayed bridge using wireless smart sensor technology: data analyses, Smart Structures and Systems, 6(5-6), 461-480. DOI ScienceOn |
| 6 | Dorvasha, S., Pakzada, S. N., Labuza, E., Changa, M., Lib, X., and Chengb, L. (2010), Validation of a wireless sensor network using local damage detection algorithm for beam-column connections, Proceedings of SPIE, 7467, 764719-1-764719-11. |
| 7 | Giurgiutiu, V., Zagrai, A., and Bao, J. (2004), Damage identification in aging aircraft structures with piezoelectric wafer active sensors, Journal of Intelligent Material Systems and Structures, 15(9-10), 673-687. DOI |
| 8 | Park, J. W., Jung, H. J., Jo, H., and Spencer, B. F. (2012), Feasibility study of micro-wind turbines for powering wireless sensors on a cable-stayed bridge, Energies, 5(9), 3450-3464. DOI |
| 9 | Peckens, C. A., and Lynch, J. P. (2013), Embedded linear classifiers on wireless sensor networks for damage detection, Proceedings of SPIE Smart Structures and Materials+ Nondestructive Evaluation and Health Monitoring, International Society for Optics and Photonics, 86920V-1-86920V-10. |
| 10 | Quinn, W., Angove, P., Buckley, J., Barrett, J., and Kelly, G. (2011), Design and performance analysis of an embedded wireless sensor for monitoring concrete curing and structural health, Journal of Civil Structural Health Monitoring, 1(1-2), 47-59. DOI |
| 11 | Rice, J. A., and Spencer Jr, B. F. (2008), Structural health monitoring sensor development for the Imote2 platform, Proceedings of In The 15th International Symposium on: Smart Structures and Materials & Nondestructive Evaluation and Health Monitoring, International Society for Optics and Photonics, 693234-693234. |
| 12 | Rice, J. A., and Spencer Jr, B. F. (2009), Flexible smart sensor framework for autonomous full-scale structural health monitoring, Newmark Structural Engineering Laboratory Report Series 018, University of Illinois at Urbana-Champaign. http://hdl.handle.net/2142/16300. |
| 13 | Rice, J. A., Mechitov, K., Sim, S. H., Nagayama, T., Jang, S., Kim, R., Spencer Jr, B. F., Agha, G., and Fujino, Y. (2010), Flexible smart sensor framework for autonomous structural health monitoring, Smart Structures and Systems, 6(5-6), 423-438. DOI ScienceOn |
| 14 | Ruiz-Sandoval, M., Nagayama, T., and Spencer Jr, B. F. (2006), Sensor development using Berkeley Mote platform, Journal of Earthquake Engineering, 10(2), 289-309. DOI |
| 15 | Spencer, B. F., Ruiz-Sandoval, M. E., and Kurata, N. (2004), Smart sensing technology: opportunities and challenges, Structural Control and Health Monitoring, 11(4), 349-368. DOI ScienceOn |
| 16 | Shimada, T. (1994), Estimating method of cable tension from natural frequency of high mode, Proceedings of JSCE, 501(1-29), 163-171. |
| 17 | Sim, S. H., Li, J., Jo, H., Park, J. W., Cho, S., Spencer Jr, B. F., and Jung, H. J. (2014), A wireless smart sensor network for automated monitoring of cable tension, Smart Materials and Structures, 23(2), 025006. DOI ScienceOn |
| 18 | Sim, S. H., Spencer, B. F., Zhang, M., and Xie, H. (2010), Automated decentralized modal analysis using smart sensors, Structural Control and Health Monitoring, 17(8), 872-894. DOI ScienceOn |
| 19 | Spencer, Jr. B. F., and Cho, S. (2011), Wireless smart sensor technology for monitoring civil infrastructure: technological developments and full-scale applications, Proceedings of 2011 World Congress on Advances in Structural Engineering and Mechanics (ASEM11+), Technopress, Seoul, Korea. |
| 20 | Straser, E. G., and Kiremidjian, A. S. (1998), A modular, wireless damage monitoring system for structures. Stanford, CA, USA: John A. Blume Earthquake Engineering Center. |
| 21 | Swartz, R. A., and Lynch, J. P. (2006), A multirate recursive ARX algorithm for energy efficient wireless structural monitoring, Proceedings of 4th World Conference on Structural Control and Monitoring, San Diego, CA, USA. |
| 22 | Swartz, R. A., Jung, D., Lynch, J. P., Wang, Y., Shi, D., and Flynn, M. P. (2005), Design of a wireless sensor for scalable distributed in-network computation in a structural health monitoring system, Proceedings of 5th international workshop on structural health monitoring, Stanford, CA, USA, 1570-1577. |
| 23 | Zonta, D., Wu, H., Pozzi, M., Zanon, P., Ceriotti, M., Mottola, L., Picco, G. P., Murphy, A. L., Guna, S., and Corra, M. (2010), Wireless sensor networks for permanent health monitoring of historic buildings, Smart Structures and Systems, 6(5-6), 595-618. DOI ScienceOn |
| 24 | Torbol, M., Kim, S., and Shinozuka, M. (2013), Long term monitoring of a cable-stayed bridge using DuraMote, Smart Structures and Systems, 11(5), 453-476. DOI ScienceOn |
| 25 | Wang, Z., Pakzad, S., and Cheng, L. (2012), Sandwich node architecture for agile wireless sensor networks for real-time structural health monitoring applications, Proceedings of SPIE Smart Structures and Materials+ Nondestructive Evaluation and Health Monitoring, International Society for Optics and Photonics, 83450L-1-83450L-8. |
| 26 | Zhou, D., Ha, D. S., and Inman, D. J. (2010), Ultra low-power active wireless sensor for structural health monitoring, Smart Structures and Systems, 6(5-6), 675-687. DOI ScienceOn |
| 27 | Jo, H., Park, J. W., Spencer Jr, B. F., and Jung, H. J. (2013), Develoment of high-sensitivity wireless strain sensor for structural health monitoring, Smart Structures and Systems, 11(5), 477-496. DOI ScienceOn |
| 28 | Goertzel, G. (1958), An algorithm for the evaluation of finite trigonometric series, American mathematical monthly, 65(1), 34-35. DOI ScienceOn |
| 29 | Ho, D. D., Nguyen, K. D., Yoon, H. S., and Kim, J. T. (2012), Multiscale acceleration-dynamic strain-impedance sensor system for structural health monitoring, International Journal of Distributed Sensor Networks, 2012, 1-17. |
| 30 | Jang, S., Jo, H., Cho, S., Mechitov, K., Rice, J. A., Sim, S. H., Jung, H. J., Yun, C. B., Spencer Jr, B. F., and Agha, G. (2010), Structural health monitoring of a cable-stayed bridge using smart sensor technology: deployment and evaluation, Smart Structures and Systems, 6(5-6), 439-459. DOI ScienceOn |
| 31 | Kane, M., Zhu, D., Hirose, M., Dong, X., Winter, B., Hackell, M., Lynch, J. P., Wang, Y., and Swartz, R. A. (2014), Development of an extensible dual-core wireless sensing node for cyber-physical systems, Proceedings of SPIE Smart Structures and Materials+ Nondestructive Evaluation and Health Monitoring, International Society for Optics and Photonics, 90611U-1-90611U-19. |
| 32 | Kim, D. Y., Yang, J. Y., Lee, I. S., Yoo, S. E., Seong, J. U., Lopez, T. S., and Do, Y. M. (2004), Embedded software technology for wireless sensor network, The Magazine of the IEEK, 31(11), 84-98. |
| 33 | Kim, J. H., Lynch, J. P., Zonta, D., Yun, C. B., and Lee, J. J. (2009). Modal analysis of the Yeondae Bridge using a reconfigurable wireless monitoring system, Proceedings of the 10th International Conference on Structural Safety and Reliability (ICOSSAR'09), Osaka, Japan. |
| 34 | Kurata, M., Lynch, J. P., van der Linden, G. W., Jacob, V., and Hipley, P. (2010), Preliminary study of a wireless structural monitoring system for the new carquinez suspension bridge, Proceedings of the Fifth World Conference on Structural Control and Monitoring, 1-14. |
| 35 | Kim, J., and Lynch, J. P. (2012), Experimental analysis of vehicle-bridge interaction using a wireless monitoring system and a two-stage system identification technique, Mechanical Systems and Signal Processing, 28, 3-19. DOI ScienceOn |
| 36 | Kim, J., Swartz, A., Lynch, J. P., Lee, J. J., and Lee, C. G. (2010), Rapid-to-deploy reconfigurable wireless structural monitoring systems using extended-range wireless sensors, Smart Structures and Systems, 6(5-6), 505-524. DOI ScienceOn |
| 37 | Kurata, M., Kim, J., Zhang, Y., Lynch, J. P., Van der Linden, G. W., Jacob, V., Thometz, E., Hipley, P., and Sheng, L. H. (2011). Long-term assessment of an autonomous wireless structural health monitoring system at the new Carquinez Suspension Bridge, Proceedings of SPIE Smart Structures and Materials+ Nondestructive Evaluation and Health Monitoring, International Society for Optics and Photonics, 798312-798312. |
| 38 | Labuz, E. L., Chang, M., and Pakzad, S. (2010), Local damage detection in beam-column connections using a dense sensor network, Proceedings of 19th Annual Structures Congress, Orlando, FL, 3143-3154. |
| 39 | Law, K. H., Wang, Y., Swartz, A., and Lynch, J. P. (2010), Wireless sensing and vibration control of civil structures, Proceedings of Wireless Information Technology and Systems (ICWITS) 2010, IEEE International Conference, 1-4. |
| 40 | Lee, H. M., Kim, J. M., Sho, K., & Park, H. S. (2010). A wireless vibrating wire sensor node for continuous structural health monitoring, Smart Materials and Structures, 19(5), 055004. DOI ScienceOn |
| 41 | Lynch, J. P., and Loh, K. J. (2006), A summary review of wireless sensors and sensor networks for structural health monitoring, Shock and Vibration Digest, 38(2), 91-130. DOI ScienceOn |
| 42 | Linderman, L. E., Rice, J. A., Barot, S., Spencer Jr, B. F., and Bernhard, J. T. (2010), Characterization of wireless smart sensor performance, Journal of engineering mechanics, 136(12), 1435-1443. DOI ScienceOn |
| 43 | Liu, L., Liu, S., and Yuan, F. G. (2012), Damage localization using a power-efficient distributed on-board signal processing algorithm in a wireless sensor network, Smart Materials and Structures, 21(2), 025005. DOI ScienceOn |
| 44 | Lynch, J. P. (2007), An overview of wireless structural health monitoring for civil structures, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 365(1851), 345-372. DOI |
| 45 | Lynch, J. P., Law, K. H., Kiremidjian, A. S., Carryer, E., Farrar, C. R., Sohn, H., Allen, D. W., Nadler, B., and Wait, J. R. (2004), Design and performance validation of a wireless sensing unit for structural monitoring applications, Structural Engineering and Mechanics, 17(3-4), 393-408. DOI ScienceOn |
| 46 | Lynch, J. P., Swartz, R. A., Zimmerman, A. T., Brady, T. F., Rosario, J., Salvino, L. W., and Law, K. H. (2009), Monitoring of a high speed naval vessel using a wireless hull monitoring system, Proceedings of the 7th International Workshop on Structural Health Monitoring, 9-11. |
| 47 | Mascarenas, D. D., Flynn, E. B., Todd, M. D., Overly, T. G., Farinholt, K. M., Park, G., and Farrar, C. R. (2010), Development of capacitance-based and impedance-based wireless sensors and sensor nodes for structural health monitoring applications, Journal of Sound and Vibration, 329(12), 2410-2420. DOI ScienceOn |
| 48 | Nagayama, T., Spencer Jr, B. F., Mechitov, K. A., and Agha, G. A. (2009), Middleware services for structural health monitoring using smart sensors, Smart Structures and Systems, 5(2), 119-137. DOI ScienceOn |
| 49 | Min, J., Park, S., Yun, C. B., and Song, B. (2010) Development of a low-cost multifunctional wireless impedance sensor node, Smart Structures and Systems, 6(5-6), 689-709. DOI ScienceOn |
| 50 | Nagayama, T., Sim, S. H., Miyamori, Y., and Spencer Jr, B. F. (2007), Issues in structural health monitoring employing smart sensors, Smart Structures and Systems, 3(3), 299-320. DOI ScienceOn |
| 51 | Nguyen, K. D., Kim, J. T., and Park, Y. H. (2013), Long-term vibration monitoring of cable-stayed bridge using wireless sensor network, International Journal of Distributed Sensor Networks, 2013, 1-9. |
| 52 | Ni, Y. Q., Li, B., Lam, K. H., Zhu, D., Wang, Y., Lynch, J. P., and Law, K. H. (2011), In-construction vibration monitoring of a super-tall structure using a long-range wireless sensing system, Smart Structures and Systems, 7(2), 83-102. DOI ScienceOn |
| 53 | Pakzad, S. N. (2010), Development and deployment of large scale wireless sensor network on a long-span bridge, Smart Structures and Systems, 6(5-6), 525-543. DOI ScienceOn |
| 54 | Park, G., Sohn, H., Farrar, C. R., and Inman, D. J. (2003), Overview of piezoelectric impedance-based health monitoring and path forward, Shock and Vibration Digest, 35(6), 451-464. DOI ScienceOn |
| 55 | Park, H. S., Shin, Y., Choi, S. W., and Kim, Y. (2013), An integrative structural health monitoring system for the local/global responses of a large-scale irregular building under construction. Sensors, 13(7), 9085-9103. DOI ScienceOn |
| 56 | Bhalla, S., and Soh, C. K. (2004), High frequency piezoelectric signatures for diagnosis of seismic/blast induced structural damages, Ndt & E International, 37(1), 23-33. DOI ScienceOn |
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