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Aubin, S. 2009. Capteur de position innovants: Application aux Systèmes de Transport Intelligents dans le cadre d’un observatoire de trajectoires de véhicules. M.S. thesis, Toulouse University, France.AubinS.2009Capteur de position innovants: Application aux Systèmes de Transport Intelligents dans le cadre d’un observatoire de trajectoires de véhiculesM.S. thesisToulouse University, FranceSearch in Google Scholar
Hill, K. O., Meltz, G. and Membre, I. E. E. E. 1997. Fiber Bragg grating technology fundamentals and overview. Journal of Lightwave Technology 15(8): 1263–1276.HillK. O.MeltzG.MembreI. E. E. E.1997Fiber Bragg grating technology fundamentals and overviewJournal of Lightwave Technology15(8):1263127610.1109/50.618320Search in Google Scholar
Kang, D. H., Park, S. O., Hong, S. S. and Kim, C. G. 2005. The signal characteristics of reflected spectra of fiber Bragg grating sensors with strain gradients and grating lengths. NDT&E International 38: 712–718.KangD. H.ParkS. O.HongS. S.KimC. G.2005The signal characteristics of reflected spectra of fiber Bragg grating sensors with strain gradients and grating lengthsNDT&E International3871271810.1016/j.ndteint.2005.04.006Search in Google Scholar
Kerrouche, A., Boyle, W. J. O., Sun, T. and Grattan, K. T. V. 2009. Design and in-the field performance evaluation of compact FBG sensor system for structural health monitoring applications. Sensors and Actuators A: Physical 151: 107–112.KerroucheA.BoyleW. J. O.SunT.GrattanK. T. V.2009Design and in-the field performance evaluation of compact FBG sensor system for structural health monitoring applicationsSensors and Actuators A: Physical15110711210.1016/j.sna.2009.01.021Search in Google Scholar
Kersey, A. D., Davis, M. A., Patrick, H. J., LeBlanc, M., Koo, K. P., Member, I. E. E. E., Askins, C. G., Putnzm, M. A. and Joseph Friebele, E. 1997. Fiber grating sensors. Journal of Lightwave Technology 15(8): 1442–1463.KerseyA. D.DavisM. A.PatrickH. J.LeBlancM.KooK. P.MemberI. E. E. E.AskinsC. G.PutnzmM. A.Joseph FriebeleE.1997Fiber grating sensorsJournal of Lightwave Technology15(8):1442146310.1109/50.618377Search in Google Scholar
Khalil, A. H., Heiza, K. M. and El Nawawy, O. A. 2016. “State of the art review on bridges structural health monitoring applications and future trends”, 11th International Conference on Civil and Architecture Engineering, April 19–21.KhalilA. H.HeizaK. M.El NawawyO. A.2016“State of the art review on bridges structural health monitoring applications and future trends”11th International Conference on Civil and Architecture EngineeringApril192110.21608/iccae.2016.43761Search in Google Scholar
Li, L., Tong, X. L., Zhou, C. M., Wen, H. Q., Lv, D. J., Ling, K. and Wen, C. S. 2011. Integration of miniature Fabry-Perot fiber optic sensor with FBG for the measurement of temperature and strain. Optics Communications 284(6): 1612–1615.LiL.TongX. L.ZhouC. M.WenH. Q.LvD. J.LingK.WenC. S.2011Integration of miniature Fabry-Perot fiber optic sensor with FBG for the measurement of temperature and strainOptics Communications284(6):1612161510.1016/j.optcom.2010.11.010Search in Google Scholar
Lu, C., Lu, C., Cui, J. and Cui, Y. 2008. Reflection spectra of fiber Bragg grating with random fluctuations. Optical Fiber Technology 14: 97–101.LuC.LuC.CuiJ.CuiY.2008Reflection spectra of fiber Bragg grating with random fluctuationsOptical Fiber Technology149710110.1016/j.yofte.2007.09.007Search in Google Scholar
Measures, R. M., Alavie, T., Maaskant, R., Karr, S., Huang, S., Grant, L., Guha-Thakurta, A., Tadros, G. and Rizkalla, S. 1994. Fiber optic sensing for bridges. 4th International Conference on Short & Medium bridges, Halifax, pp. 8–11.MeasuresR. M.AlavieT.MaaskantR.KarrS.HuangS.GrantL.Guha-ThakurtaA.TadrosG.RizkallaS.1994Fiber optic sensing for bridges4th International Conference on Short & Medium bridges, Halifaxpp.811Search in Google Scholar
Palaniappan, J., Wang, H., Ogin, S. L., Thorne, A. M., Reed, G. T., Crocombe, A. D., Rech, Y. and Tjin, S. C. 2007. Changes in the reflected spectra of embedded chirped fibre Bragg gratings used to monitor disbanding in bonded composite joints. Composites Science and Technology 67: 2847–2853.PalaniappanJ.WangH.OginS. L.ThorneA. M.ReedG. T.CrocombeA. D.RechY.TjinS. C.2007Changes in the reflected spectra of embedded chirped fibre Bragg gratings used to monitor disbanding in bonded composite jointsComposites Science and Technology672847285310.1016/j.compscitech.2007.01.028Search in Google Scholar
Piot, S. 2009. Une surveillance d’ouvrages en environnement côtier exemple du pont de Radès – La Goulette à Tunis. Coastal and Maritime Mediterranean Conference, Edition 1, Hannamet, Tunisia, pp. 295–300.PiotS.2009Une surveillance d’ouvrages en environnement côtier exemple du pont de Radès – La Goulette à TunisCoastal and Maritime Mediterranean Conference, Edition 1, Hannamet, Tunisiapp.29530010.5150/cmcm.2009.073-2Search in Google Scholar
Raikar, U. S., Lalasangi, A. S., Kulkarni, V. K. and AKKi, J. F. 2011. Concentration and refractive index sensor for methanol using short period grating fiber. Optik 122: 89–91.RaikarU. S.LalasangiA. S.KulkarniV. K.AKKiJ. F.2011Concentration and refractive index sensor for methanol using short period grating fiberOptik122899110.1016/j.ijleo.2009.11.012Search in Google Scholar
Rodrigues, C., Félix, C., Lage, A. and Figueiras, J. 2010. Development of a long-term monitoring system based on FBG sensors applied to concrete Bridges. Engineering Structures 32(8): 1993–2002.RodriguesC.FélixC.LageA.FigueirasJ.2010Development of a long-term monitoring system based on FBG sensors applied to concrete BridgesEngineering Structures32(8):1993200210.1016/j.engstruct.2010.02.033Search in Google Scholar
Shen, J. and Shen, Y. 2008. Investigation of the structural and spectral characteristics of deposited FBG stacks at elevated temperature. Sensors and Actuators A: Physical 147: 99–103.ShenJ.ShenY.2008Investigation of the structural and spectral characteristics of deposited FBG stacks at elevated temperatureSensors and Actuators A: Physical1479910310.1016/j.sna.2008.04.004Search in Google Scholar
Sun, L., Li, H.-N., Ren, L. and Jin, Q. 2007. Dynamic response measurement of offshore platform model by FBG sensors. Sensors and Actuators A: Physical 136: 572–579.SunL.LiH.-N.RenL.JinQ.2007Dynamic response measurement of offshore platform model by FBG sensorsSensors and Actuators A: Physical13657257910.1016/j.sna.2006.12.012Search in Google Scholar
Suresh, R. and Tjin, S. C. 2005. Effects of dimensional and material parameters and cross-coupling on FBG based shear force sensor. Sensors and Actuators A: Physical 120: 26–36.SureshR.TjinS. C.2005Effects of dimensional and material parameters and cross-coupling on FBG based shear force sensorSensors and Actuators A: Physical120263610.1016/j.sna.2004.11.005Search in Google Scholar
Vorathin, E., Hafizi, Z. M., Aizzuddin, A. M., Zaini, M. K. A. and Lim, K. S. 2019. Temperature independent chirped FBG pressure transducer with high sensitivity. Optics and Lasers in Engineering 117: 49–56.VorathinE.HafiziZ. M.AizzuddinA. M.ZainiM. K. A.LimK. S.2019Temperature independent chirped FBG pressure transducer with high sensitivityOptics and Lasers in Engineering117495610.1016/j.optlaseng.2019.01.012Search in Google Scholar