The practice of laparoscopic surgery continues to gain widespread adoption for a variety of surgical procedures. In the past, this kind of surgery required not only thorough training but also highly coordinated fashion between the surgeon and assistant. There-fore, people have done a lot of research on laparoscopic surgery robotic systems to fulfill laparoscopic endoscope navigation. We use a Robotic Flexible Laparoscope System (RFLS) to provide surgeons manipulate the laparoscope with his/her head movement. However, we need to concern not only the safety issues but also the user-friendly aspect if robot-assisted system is introduced into the practical surgical operation. It needs to improve the efficiency of the surgery, and be perfectly combined with surgical procedures. First of all, because the operational sophistication of surgeons is different, not every user is familiar with our RFLS. An adaptive intelligent control algorithm is integrated with our system so that the system will automatically adjust the parameters with every user based on their sophistication with the operation. Therefore, surgeons can get used to our robot-assisted system in a relatively short time. Surgeons usually need to manipulate the laparoscopic view back and forth between two targets during the surgery. We propose the Anatomical Position Retrieving Ability to record the anatomical position which the surgeon operates at the time. Surgeons can easily retrieve the previous position by a single command with small errors. Besides, the system can determine whether there is any tissue obstacle, and decide to retrieve the recorded position along a straight trajectory or previous one. In minimally invasive surgery, surgeons often need to find the foreign bodies inside the abdomen (i.e. tumors, polyps... etc.). As a result, we propose the Target Detecting System that identifies foreign bodies and moves the flexible laparoscope to the target. Experimental results show that simultaneous self-calibration will always work during operation. The algorithm can simultaneously adjust the system parameters with every user. It can reduce the task time up to 19.39% on average, making the overall system more user-friendly with the operator. Surgeons can accurately retrieve the previous position by using the Anatomical Position Retrieving Functions. The error between the recorded position and the end position is less than 0.15 degrees. The Target Detecting System can fast detect the target inside the abdomen and stably moves to the accurate target within 3 seconds.