Purpose To explore the effects of gender and win-and-lose on LPS parameters and external load during real 3×3 basketball games through LPS and IMU. Methods Sixty college level basketball players (28 male players and 32 female players) were recruited. A Goalgo T1 sensor was mounted on the left shoulder of every player. The kinematics parameters are measured by the LPS, and the external load is calculated by the formula of Player Load from the value measured by the IMU. With the win-lose and gender as independent variables, a two-factor analysis of variance was performed. Results: There were no significant difference between teams of winning and losing in the total running distance, average speed, maximum speed, cumulative running distance of each speed interval, total playing time, times of high acceleration and high deceleration, times of changing directions, Player Load, and Player Load per min. (p > .05). No significant difference was found between male and female in the total running distance, cumulative running distance in 0 ~ < 1.67 m/s, 1.67 ~ < 3.3 m/s and 3.3 ~ < 5 m/s, total playing time, times of high acceleration and high decelerations, Player Load, and Player Load per min (p > .05). Male players were significantly faster than female players in average speed (1.28 ± 0.07 m/s > 1.23 ± 0.06 m/s) and maximum speed (5.05 ± 0.39 m/s > 4.46 ± 0.29 m/s). The number of changes in direction was significantly greater for female players than for male players (60.00 ± 22.36 times > 42.64 ± 19.45 times). Conclusion: There were no significant differences in majority of variables between winning and losing teams and between genders in 3×3 basketball games, but the winning team had fewer times of high accelerations, high decelerations, and changes of direction than the losing team, which suggested that accelerating and decelerating efficiently may be a potential winning factor.