높은 유효하중 능력과 다양한 벽면전환 능력을 가지는 다관절 등반로봇 개발
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Payload capacity and transition ability are essential for climbing robots to apply the robots to various applications such as inspection and exploration. This paper presents a new climbing robotic platform with multi-link structure of track-wheel modules to enhance payload capacity and transition ability, and its tracking controller design and experimental results. The compliances between track-wheel modules achieve stable internal and external transitions while the large adhesion area of the track-wheel module enhances the payload capacity of the robot. Kinematic model-based tracking controller is designed and implemented for autonomous internal transition, and the gains of the controller are optimized by experimental design. Experiments on the automatic internal transitions are performed and the results guarantee autonomous internal transition with little tracking error.
[1] 오재용,et al. 레버암 상태 추정을 이용한 IMU 의 자세 결정 알고리즘 , 2013 .
[2] 진재현,et al. 공진자이로 실험장치 개발과 기초 제어특성 실험 , 2013 .