Purpose: In competitive swimming, teams try their best to use advanced scientific methods to optimize training. However, traditional training lacks the technological environment to simulate the real conditions. Therefore, the improvement of the athletes' swimming technique is limited. To find out a more accurate movement analysis and technical monitoring method, this study uses the angular velocity sensor to determine the different points of the athletes' movements during swimming through the sensor device, to improve the stability of the athletes' movements. Methods: This study took freestyle Olympians as the subjects. The inertial measurement unit was used to collect data on six detection points on the athletes' bodies, and to analyze the processes of catching water, pushing water, moving arms in the air, and returning to the water. In the 50-meter freestyle swimming, the athletes' movements were measured through the angular velocity sensor, and the data were collected and fed back to the coach to implement a new training plan. After 12 weeks of corrective training, the athlete returned to the test. The differences in angular velocity between the pre-test and the post-test were compared. Results: Our analysis indicates that, after corrective training, the athletes' post-test X-axial and Y-axial data are more stable than those from the pre-test which reduces the asymmetry of the X-axis rotation and the up and down shaking of the Y-axis (improving Y-axis 60 %). However, the sensor data results also show that the Z-axial rotation is compensated due to the corrective training, causing the left and right shaking of the post-test to be larger than that of the pre-test (Z-axial 70 % worse). Conclusion: This method proves that the sensor can record information on the athletes' movements, and then analyze the stability of the athletes' movements in each stage of swimming. The results also show that the sensors attached to the athletes' back were helpful to distinguish the subtle changes in the athletes' movements in each of the three axes. These results could also be of great assistance for coaches to improve their athletes' postures and future training direction.