Balmès É, Basseville M, Mevel L, Nasser H (2009) Handling the temperature effect in vibration monitoring of civil structures: a combined subspace-based and nuisance rejection approach. Control Eng Pract 17(1):80–87
Chan YT, Hu AGC, Plant JB (1979) A Kalman filter based tracking scheme with input estimation. IEEE Trans Aerosp Electron Syst 15:237–244
Dai L, Yang N, Zhang L, Yang QS, Law SS (2016) Monitoring crowd load effect on typical ancient Tibetan building. Struct Control Health Monit 23:998–1014
Department of Architecture, Tsinghua University (1985) Historic Chinese Architecture. Tsing University Press, Beijing, China
Deraemaeker A, Reynders E, DeRoeck G, Kullaa J (2008) Vibration-based structural health monitoring using output-only measurements under changing environment. Mech Syst Signal Process 22(1):34–56
De Stefano A, Matta E, Clemente P (2016) Structural health monitoring of historical heritage in Italy: some relevant experiences. J Civ Struct Health Monit 6(1):83–106
Fang DP, Iwasaki S, Yu MH, Shen QP (2001) Ancient Chinese timber architecture. II: dynamic characteristics. J Struct Eng ASCE 127(11):1358–1364
Hansen PC (1992) Analysis of discrete ill-posed problems by means of the L-curve. SIAM Rev 34:561–580
Kalman RE (1960) A new approach to linear filtering and prediction problem. J Basic Eng 82(1):35–45
King WS, Yen JY, Yen YN (1996) Joint characteristics of traditional Chinese wooden frames. Eng Struct 18(8):635–644
Kulprapha N, Warnitchai P (2012) Structrual health monitoring of continuous prestressed concrete bridges using ambient thermal responses. Eng Struct 40:20–38
Law SS, Chan THT, Zeng QH (1997) Moving force identification: A time domain method. J Sound Vib 201(1):1–22
Lorenzoni F, Casarin F, Modena C, Caldon M, Islami K, Da Porto F (2013) Structural health monitoring of the Roman Arena of Verona, Italy. J Civ Struct Health Monit 3(4):227–246
Lyu MN, Yang QS (2017) Estimation of thermal load in members of a structure from measured accelerations. Int J Struct Stab Dyn 17(3):1750036
Lyu MN, Zhu XQ, Yang QS (2017) Connection stiffness identification of historic timber buildings using temperature-based sensitivity analysis. Eng Struct 131:180–191
Maekawa H, Kawai N (1998) Microtremor measurement on Japanese traditional wooden houses which are important cultural properties. In: Proceedings of the world conference on timber engineering, Presses Polytechniques et Universitaires Romandes, Montreux, Switzerland 40–47
Pan SW, Xiao D, Xing ST, Law SS, Du PY, Li YJ (2016) A general extended Kalman filter for simultaneous estimation of system and unknown inputs. Eng Struct 109:85–98
Seo JM, Choi IK, Lee JR (1999) Static and cyclic behavior of wooden frames with tenon joints under lateral load. J Struct Eng ASCE 125(3):344–349
Sohn H (2007) Effects of environmental and operational variability on structural health monitoring. Philos Trans R Soc A 365(1851):539–560
Sohn H, Worden K, Farrar CR (2002) Statistical damage classification under changing environmental and operational conditions. J Intell Mater Syst Struct 13(9):561–574
Uchida A et al (1998) Dynamic characteristics in Japanese traditional timber buildings. In: Proceedings of the world conference on timber engineering, presses Polytechniques et Universitaires Romandes, Montreux, Switzerland, pp 34–41
Yarnold MT, Moon FL (2015) Temperature-based structural health monitoring baseline for long-span bridges. Eng Struct 86:157–167
Zhu XQ, Law SS (2001) Identification of moving loads on an orthotropic plate. J Vib Acoust 123(2):238–244