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Journal of the Korea Concrete Institute

J Korea Inst. Struct. Maint. Insp.
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  • Korea Citation Index (KCI)

References

1 
Amano, M. (2007), Structural health monitoring of an advanced grid structure with embedded fiber bragg grating sensors, Structural Health Monitoring, 6(4), 309-324.DOI
2 
Güemes, A., Fernández-López, A., Soller, B. (2010), Optical Fiber Distributed Sensing - Physical Principles and Applications, Structural Health Monitoring: An International Journal, 9(3), 233-245.DOI
3 
Hotate, K. (2000), Measurement of brillouin gain spectrum distribution along an optical fiber using a correlation-based technique-proposal, experiment and simulation-, IEICE Transactions on Electronics, e83-c(3), 405-411.Google Search
4 
Li, S., Wu, Z. (2007), Development of Distributed Long-gage Fiber Optic Sensing System for Structural Health Monitoring, Structural Health Monitoring: An International Journal, 6(2), 133-143.DOI
5 
Sieńko, R. (2018), Strain and crack analysis within concrete members using distributed fibre optic sensors, Structural Health Monitoring, 1 novemberDOI
6 
Wei, H. (2019), Low-coherent fiber-optic interferometry for in situ monitoring the corrosion-induced expansion of pre-stressed concrete cylinder pipes, Structural Health Monitoring. SAGE Publications Ltd.DOI
7 
Zhang, Q. (2019), Deflection distribution estimation of the main arch of arch bridges based on long-gauge fiber optic sensing technology, Advances in Structural Engineering, 22(15), 3341-3351.DOI
8 
Zhao, X. (2012), Application of multiscale fiber optical sensing network based on brillouin and fiber bragg grating sensing techniques on concrete structures, International Journal of Distributed Sensor NetworksDOI
9 
Zhou, Z. (2019), Structural damage detection with distributed long-gauge FBG sensors under multi-point excitations, Smart Materials and Structures. IOP Publishing, 28(9), 095023Google Search