Smart Structures and Systems (SSS) - v. 6, n. 5-6 (July 2010)
| Published: | July 2010 |
|---|
Articles in this Issue
| Author(s) | Title | Page(s) |
|---|---|---|
| Park, Jae-Hyung / Kim, Jeong-Tae / Hong, Dong-Soo / Mascareñas, David / Lynch, Jerome Peter | Autonomous smart sensor nodes for global and local damage detection of prestressed concrete bridges based on accelerations and impedance measurements | 711-730 |
| Li, Peng / Gu, Haichang / Song, Gangbing / Zheng, Rong / Mo, Y. L. | Concrete structural health monitoring using piezoceramic-based wireless sensor networks | 731-748 |
| Yu, Yan / Ou, Jinping / Li, Hui | Design, calibration and application of wireless sensors for structural global and local monitoring of civil infrastructures | 641-659 |
| Pakzad, Shamim N. | Development and deployment of large scale wireless sensor network on a long-span bridge | 525-543 |
| Min, Jiyoung / Park, Seunghee / Yun, Chung-Bang / Song, Byunghun | Development of a low-cost multifunctional wireless impedance sensor node | 689-709 |
| Yan, Guirong / Guo, Weijun / Dyke, Shirley J. / Hackmann, Gregory / Lu, Chenyang | Experimental validation of a multi-level damage localization technique with distributed computation | 561-578 |
| 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 | 423-438 |
| Taylor, Stuart G. / Farinholt, Kevin M. / Park, Gyuhae / Todd, Michael D. / Farrar, Charles R. | Multi-scale wireless sensor node for health monitoring of civil infrastructure and mechanical systems | 661-673 |
| Kim, JunHee / Swartz, R. Andrew / Lynch, Jerome P. / Lee, Jong-Jae / Lee, Chang-Geun | Rapid-to-deploy reconfigurable wireless structural monitoring systems using extended-range wireless sensors | 505-524 |
| Nagayama, Tomonori / Moinzadeh, Parya / Mechitov, Kirill / Ushita, Mitsushi / Makihata, Noritoshi / Ieiri, Masataka / Agha, Gul / Spencer, Billie F. Jr. / Fujino, Yozo / Seo, Ju-Won | Reliable multi-hop communication for structural health monitoring | 481-504 |
| 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 | 439-459 |
| 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 | 461-480 |
| Zhou, Dao / Ha, Dong Sam / Inman, Daniel J. | Ultra low-power active wireless sensor for structural health monitoring | 675-687 |
| Park, Hyun-Jun / Sohn, Hoon / Yun, Chung-Bang / Chung, Joseph / Kwon, Il-Bum | A wireless guided wave excitation technique based on laser and optoelectronics | 749-765 |
| Whelan, Matthew J. / Gangone, Michael V. / Janoyan, Kerop D. / Hoult, Neil A. / Middleton, Campbell R. / Soga, Kenichi | Wireless operational modal analysis of a multi-span prestressed concrete bridge for structural identification | 579-593 |
| Zonta, Daniele / Wu, Huayong / Pozzi, Matteo / Zanon, Paolo / Ceriotti, Matteo / Mottola, Luca / Picco, Gian Pietro / Murphy, Amy L. / Guna, Stefan / Corra, Michele | Wireless sensor networks for permanent health monitoring of historic buildings | 595-618 |
| Bennett, Peter J. / Soga, Kenichi / Wassell, Ian / Fidler, Paul / Abe, Keita / Kobayashi, Yusuke / Vanícek, Martin | Wireless sensor networks for underground railway applications: case studies in Prague and London | 619-639 |
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