Recently, more and more researches pay attention on the structural damages caused by near-fault earthquake. Since the near-fault earthquake can be characterized by a special wave form with a significant permanent ground displacement and a serious velocity pulse, it is not so popular in the past. As a result, its records of ground motion are far fewer than those of far-field earthquake. This thesis proposed an genetic-algorithm-based optimization model to simulate the important characteristics of near-fault earthquake. It can be seen that the results obtained could provide a satisfactory precision. Based on the design code, the ground motions with a spectrum compatible to that specified in the code are necessary for time history analysis in seismic design. This thesis developed a analysis program with visual operation system to establish the artificial ground motions required. The application to the design of building, highway bridge and railway bridge are included. By which, the complicated procedure for the seismic design can be simplified. The results obtained could betinit the practical design efforts for the engineers.