Liver tumor (liver cancer) is a very common disease for Chinese people. Early diagnosis and treatment of liver tumor are important measures to avoid worsening. Ultrasound scanning is usually adopted for first-line screening and diagnosis. If the lesion needs treatment, percutaneous ethanol injection, radiofrequency ablation or arterial embolization is common treatment method. For serious cases, liver dissection treatment will be necessary. In recent years, noninvasive thermal treatment by High Intensity Focused Ultrasound (HIFU) is highly potential in tumor treatment. This project is aimed to study and develop an ultrasound assisted robotic positioning system for treating liver tumor by HIFU. With the assistance of ultrasound image guidance technology, ultrasound images can be reconstruct into the three-dimensional model of the tumor with size and location. We re-cut the three-dimensional model into parallel slices based on the HIFU probe direction, which is convenient for the follow path planning. Then, a computer controlled robot will move HIFU probe to follow in the planned path and execute thermal treatment. The experiments are mainly to measure the ultrasound imaging calibration error, robot spatial positioning error and overall system error. The results of several experiments show that distance errors are 1.02 ± 0.41mm, 0.08 ± 0.06mm, 1.06 ± 0.38mm, respectively. Finally, move the HIFU focus point to ablate polyacrylamide gel phantom. The experiment positioning error is less than 2.1mm.