Nien-Chu Fang, Ting-Nan Tsai, Li-Fan Wu, Chuan-Han Cheng, C. Huang, Chun-Yuan Liu, Tzuu-Hseng S. Li
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Multi-robot coordination strategy for 3 vs. 3 teen-sized humanoid robot soccer game
This paper proposes a multi-robot coordination strategy system concerning 3 vs. 3 teen-sized humanoid robot soccer game. Three main technologies are integrated in the system, including object recognition and self-localization, and coordination strategy. Because the line, ball, and goal posts are colored white, we utilize the contour features to recognize them and calculate their positions in robot coordinate. Hence, suppose the robot position in the world coordinate is known, the position of the line, ball, and goal posts in world coordinate can be determined. We figure out the initial position of the robot and update the position by the value of the Inertial Measurement Unit (IMU) and the estimate movement distance. Every robot transmits its location and his own information to the central control player to construct a global map used to generate a suitable strategy and to assign roles. A simulation software is constructed in this paper. After that, experiments show the strategy is effective on humanoid robots. These results illustrate the efficiency of the proposed coordination strategy.
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