@Article{sdhm.2022.013444, AUTHOR = {Wei Jiang, Zelin Cao}, TITLE = {Regional Finite-Fault Source Model for Development of Ground Motion Attenuation Relationship in Sichuan, China}, JOURNAL = {Structural Durability \& Health Monitoring}, VOLUME = {17}, YEAR = {2023}, NUMBER = {1}, PAGES = {37--54}, URL = {http://www.techscience.com/sdhm/v17n1/51757}, ISSN = {1930-2991}, ABSTRACT = {The attenuation relationship of ground motion based on seismology has always been a front subject of engineering earthquake. Among them, the regional finite-fault source model is very important. In view of this point, the general characteristics of regional seism-tectonics, including the dip and depth of the fault plane, are emphasized. According to the statistics of regional seism-tectonics and focal mechanisms in Sichuan, China, and the sensitivity of estimated peak ground acceleration (PGA) attenuation is analyzed, and the dip angle is taken as an average of 70°. Based the statistics of the upper crustal structure and the focal depth of regional earthquakes, the bottom boundary of the sedimentary cover can be used as the upper limit for estimating the depth of upper-edge. The analysis shows that this value is sensitive to PGA. Based on the analysis of geometric relations, the corresponding calculation formula is used, and a set of concepts and steps for building the regional finite-fault source model is proposed. The estimation of source parameters takes into account the uncertainty, the geometric relationship among parameters and the total energy conservation. Meanwhile, a set of reasonable models is developed, which lay a foundation for the further study of regional ground motion attenuation based on seismology.}, DOI = {10.32604/sdhm.2022.013444} }