Developing an automatic control system for modeling anesthesia of rat is the aim of the thesis. The proposed control system is an improved version of the previous deign in our laboratory. It is shown that the new system is more stable and highly integrated than the old one. This device can precisely measure vital signs such as heart rate, respiratory rate, and mean arterial pressure. These are many factors should be taken into account while modeling anesthesia. Among these are the body weight of the experimental animal, the drug concentration, and the dosage applied. To clarify the relationship among these multiple variables, body weights of the rats and the concentration of the anesthetic agent (sodium pentobarbital) were regarded as parameters; that is, to keep them within a tight range or constant. Thereby, the dosage of the anesthetics can be represented by the infusion time. Since the falling phase has been formulated in our laboratory, the recovery phase is the major task done in this thesis. The data shown that a linear relationship exists between the recovery time and level of anesthesia. The developed automatic control system can stably maintain the depth of anesthesia of the rat. The recovery phase of the rat under anesthesia was also known. These achievements could meet the goal of our laboratory. Basing on this system, further studies will be carried out in the near future.