In the attempt to develop simple damage detection algorithms that can be embedded in structural monitoring systems for rapid condition assessment following a large earthquake, a new algorithm is developed that characterizes structural damage, based on the residual drift following a strong motion. The residual drift is estimated from rotations computed from strong motion structural response acceleration measurements taken at key points on the structure.
Cheung, A., Kiremidjian, A. Development of a Rotation Algorithm for Earthquake Damage Diagnosis. Earthquake Enginering Reserch, 2014 с. 1381-1401,.
Cheung, A., Kiremidjian, A. Development of a Rotation Algorithm for Earthquake Damage Diagnosis. Earthquake Enginering Reserch, 2014 с. 1381-1401,.
Cheung, A., Kiremidjian, A. (2014) Development of a Rotation Algorithm for Earthquake Damage Diagnosis, Earthquake Enginering Reserch с. 1381-1401,.
Cheung, A., & Kiremidjian, A. (2014). Development of a Rotation Algorithm for Earthquake Damage Diagnosis. Earthquake Enginering Reserch, с. 1381-1401.
Cheung A, Kiremidjian A. Development of a Rotation Algorithm for Earthquake Damage Diagnosis. Earthquake Enginering Reserch; 2014. p. с. 1381-1401.
