• 제목/요약/키워드: Water running robot

검색결과 3건 처리시간 0.017초

4족과 6족 보행을 하는 수면 주행 로봇의 안정성 실험 연구 (Experimental Study on Rolling Stability of Quadruped and Hexapedal Water Running Robots)

  • 김현규;김정현;서병훈;서태원
    • 한국정밀공학회지
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    • 제30권10호
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    • pp.1023-1029
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    • 2013
  • Water running animals such as basilisk lizards have an advantage of high-speed movement and high power efficiency on water; so researchers in robotic fields have been interested in the water running locomotion. This paper presents prototype-design and experimental study on the fourand six-legged water running robot. Based on the previously proposed quadruped water running robot, we assemble a hexapedal water running robot. The legs of the water running robot are designed based on four-bar parallel link for repeated motion along to pre-defined path. Stability performance of the quadruped and hexapedal water running robot are investigated by experiments on rolling criterion. As a result, hexapedal robot performs better stability than quadruped robot. Based on the hexapedal robot design, we are planning to optimize the position of legs and operating frequency.

수면 주행 로봇의 안정성 향상을 위한 정적 꼬리 기구변수 최적화 (Robust Optimal Design of Tail Geometry for Stable Water-running Robots)

  • 이동규;장재형;서태원
    • 한국생산제조학회지
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    • 제25권2호
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    • pp.132-137
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    • 2016
  • Biomimetics involves the design of robotic platforms inspired from living creatures to achieve efficient operation under environmental conditions. A development within biomimetics involves investigating the function of a tail and applying it to robot design. This study aims to define the function of a static tail for water-running robots, and optimize its geometric and compliance parameters. The rolling angle of the tail is determined by the objective function, while the area and fillet ratio are used for geometric design and compliance parameters in the rolling and yawing directions. Repeated motion of the water-running robot's footpads at frequencies of 9 and 10 Hz is used as the operating condition. Robust design based on the Taguchi methodology is performed via orthogonal arrays. The optimized tail design derived in this study will be implemented in a robotic platform to improve steering and balancing functions in the pitching direction.

수면 지면 동시보행을 위한 Klann 기구 기반 주행메커니즘 최적설계 (Optimal Design of Klann-linkage based Walking Mechanism for Amphibious Locomotion on Water and Ground)

  • 김현규;정민석;신재균;서태원
    • 제어로봇시스템학회논문지
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    • 제20권9호
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    • pp.936-941
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    • 2014
  • Walking mechanisms are very important for legged robots to ensure their stable locomotion. In this research, Klann-linkage is suggested as a walking mechanism for a water-running robot and is optimized using level average analysis. The structure of the Klann-linkage is introduced first and design variables for the Klann-linkage are identified considering the kinematic task of the walking mechanism. Next, the design problem is formulated as a path generation optimization problem. Specifically, the desired path for the foot-pad is defined and the objective function is defined as the structural error between the desired and the generated paths. A process for solving the optimization problem is suggested utilizing the sensitivity analysis of the design variables. As a result, optimized lengths of Klann-linkage are obtained and the optimum trajectory is obtained. It is found that the optimized trajectory improves the cost function by about 62% from the initial one. It is expected that the results from this research can be used as a good example for designing legged robots.