[1] WEST W M.Illustration of the use of modal assurance criterion to detect structural changes in an orbiter test specimen［C］//Proceedings of Air Force Conference on Aircraft Structural Integrity, 1984:1-6.

[2] STUBBS N, KIM J T.Damage localization in structures without baseline modal parameters［J］.AIAA Journal, 1996, 34(8):1644-1649.

[3] LIM T W, KASHANGAKI T A L. Structural damage detection of space truss structures using best achievable eigenvectors［J］.AIAA Journal, 1994, 32(5):1049-1057.

[4] DOEBLING S W, FARHAT C, HEMEZ F M. Improved damage location accuracy using strain energy-based mode selection criteria［J］.AIAA Journal, 1997, 35(4):693-699.

[5] SHI Z Y, LAW S S, ZHANG L M.Structural damage detection from modal strain energy change［J］.Journal of Engineering Mechanics, 2000, 126(12):1216-1223.

[8] KHIEM N T, LIEN T V.A simplified method for natural frequency analysis frequency nanlysis of a multiple cracked beam［J］.Journal of Sound and Vibration, 2001, 245(4):737-751.

[9] MESSINA A, JONES I A, WILLIAMSE J.Damage detection and localization using natural frequency changes［C］//Proceedings of Conference on Identification in Engineering Systems, 1996:67-76.

[13] YANG Q W, LIU J K.A coupled method for structural damage identification［J］.Journal of Sound and Vibration, 2006, 296:401-405.

[17] ZHAO J, DEWOLF J T.Sensitivity study for vibrational parameters used in damage detection［J］.Journal of Structure Engineering, 1999, 125(4):410-416.

[18] LAM H F, KO J M, WONG C W.Localization of damaged structural connections based on experimental modal and sensitivity analysis［J］.Journal of Sound and Vibration, 1998, 210(1):91-115.