921 Chi-Chi earthquake has been triggered by Chelungpu faulting in 1999. The fault line extends approximately 100 km from Tongtou to Cholan in a nearly NS direction. Chelungpu fault, also known as Chi-Chi earthquake fault, shows a fracture zone with a width of 1 to 2 km at Fongyuan and turns to EW direction with a 4-km extension to Neiwan with a further NE extension. By referring to the thin-skinned model and the available data, this study carried out physical modeling tests to modify the activity of Chelungpu fault. The initial models of the tests were designed to slide on an inclined plane by considering a low-angle décollement exists in a depth of 3 to 6 km under the Western Foothill region of Taiwan. The main purpose of the study is to the understanding of the deformation mechanism under plate collision in the study region. The modified Chelungpu fault is connected to the décollement to the depth in the study. The tests are tentatively divided into tow groups, the Chelungpu fault group; and the seismogenic zone group. The test results of Chelungpu fault group show that rock body overlying the décollement in central Taiwan accumulate plate collision energy in a SE-NW direction, and the rock body deforms and breaks along the existing plane of weakness when its inherent strength is overcome. Surface deformation is intimately related to both the dip angles of the fault plane and décollement. Test results of the model with angles of 8o and 30o for the modified décollement and the fault plane respectively match most satisfactorily with the available geologic and geophysical data. By combining the test results from the seismogenic zone group, it shows that faulting system distributed in central Taiwan in en echelon form. And the ages of the fault activities become younger and younger from east to west.