In recent years, minimally invasive surgery(MIS) has gradually replaced traditional surgery. It has benefits like reduce patients’ pain and shorten recovery time after surgery. The development of endoscope holding robot arms can make MIS more convenient, safer, and can be used in more situation. The purpose of this thesis is to develop two drag teaching method and one collision avoidance method for six-axis endoscope holding robot arms. The arms have two mission: task track following and collision avoidance from medical staff. First, we derived kinematics and dynamics for robot arms and achieved drag teaching. Constructed the structure of impedance control for compliance of the robot arm. Second, we derived null-space matrix of the task-space and reflected the virtual force which computed based on the distance between medical staff and robot arm into null-space. Then the robot arms can carry out two mission at a time. In this thesis, we use Kinect and robot arm controller to implement the method we developed to verify the feasibility of this research.