Local positioning system (LPS) has been widely used to track the displacement data of players, quantify the amount of physical activity, and tactical evaluation during the game. LPS can be used as a tool to objectively obtain player behavior information, such as quantifying the external training load during team sports. Purpose: The purpose of this research was to apply the local positioning system (LPS) combined with the inertial sensor (IMU) to evaluate the relationship between internal and external training load, and observe the ability of external training load to predict internal training load. Method: Fifteen male college badminton team members wore a Goalgo T1 sensor (LPS combined with IMU) on their left shoulder, Capture. U sensors on their lower back and Polar H10 heart rate belt on their chest. Data was collected synchronously with LPS, IMU, and heart rate for badminton singles and doubles simulation games. Training impulse (TRMP), rating of perceived exertion scores (RPE), calculated Player Load and tri-axial load with acceleration were determined. Results: The results of this study showed that singles and doubles had significant differences in load, intensity, moving distance, and speed (p <.05). The moving distance of singles and doubles was significantly highly correlated with Banister's TRIMP (r= .837, r= .854, p <.05). The stepwise regression analysis had a predictive capacity of 70% for singles and 73% for doubles (R2= .700, R2=.730). The moving distance of singles was significantly highly correlated with session-RPE (r= .748, p <.05), in which the stepwise regression analysis of doubles vertical load and speed had 75% predictive capacity for session-RPE (R2= .748). Conclusion: LPS combined with IMU can be used to track players' horizontal movement and vertical training load on the court. It also can be used to predict TRIMP during specific training process of badminton, and to monitor the player's activity and quantify the indoor three-dimensional training load.