There are many way to train laparoscopic surgery skill, the most used one would be using training box, with some fake organs inside and two little holes on top for camera and surgery equipment. The training procedure will be letting trainees do one simulate surgery first then evaluator evaluates how well the trainee performs according the video tape recorded during trainees’ simulate surgery procedure. But it will take much times with trainee’s number grows, every trainee cannot get their feedback right away after they finish the simulate surgery, although we can reduce the time waiting by increasing the number of evaluator. But every evaluator has their subjective criterion which will make contradictory if the trainee receives two feedbacks with two totally different suggestions to improve his skill. So if the evaluating procedure can be replaced by an automated system, then not only we can unify the criterion but also reducing the time waiting for feedback. The faster the trainee get their feedback, the faster the trainee improve their skills, the purpose of this paper would be studying a way to do tracking and motion analysis of surgical tools, and reduce the error rate for bad tracking, finally investigates the probability to build automated system. We use the fact that equipment used in operation is always to show a long stick in screen. So the Hough transform is used to find straight lines in screen and put every line we find into pairs of two and then mark these pairs the head and the tail. We assume among these pairs, the right pair would include the area of equipment stick. Because of the difference between frame and frame is usually small, the Bayesian classification will find the most probable pair in each frame. So the heads of chosen pairs will form the trajectory of the operation equipment, according the trajectory the system then can give a performance evaluation of how well the operator performs.