• 제목/요약/키워드: One-wheel Unicycle Robot

검색결과 4건 처리시간 0.019초

부분 피드백 선형화를 이용한 One-wheel Unicycle Robot의 자세 제어 (The Posture Control of One-wheel Unicyle Robot Using Partial Feedback Linearization)

  • 김진석;조영진;김영탁
    • 한국정밀공학회지
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    • 제24권4호
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    • pp.68-75
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    • 2007
  • In this study, the ultimate goal is to acquire stability when turning around efficiently by using the controller which is applied partial feedback linearization of One-wheel Unicycle Robot. When moving around, linear controller could result in unstable factor according to widening operation range. So in order to reduce instability, 1 have developed Non-linear Controller using Partial Feedback Linearization. Compared with linear controller, Non-linear Controller guarantees the superiority of Regulating Control and Tracking Control in direct and also revolution motion of Robot. I'm sure of the Non-linear controller performance through many experiments.

공정 자동화를 위한 싱글 휠 드라이빙 모바일 로봇의 견실제어에 관한 연구 (A Study on Robust Control of Mobile Robot with Single wheel Driving Robot for Process Automation)

  • 신행봉;차보남
    • 한국산업융합학회 논문집
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    • 제19권2호
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    • pp.81-87
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    • 2016
  • This paper presents a new approach to control of stable motion of single wheel driving robot system of a pitch that is controlled by an in-wheel motor and a roll that is controlled by a reaction wheel. This robot doesn'thave any actuator for a yaw axis control, which makes the derivation of the dynamics relatively simple. The Lagrange equations was applied to derive the dynamic equations of the one wheel driving robot to implement the dynamic speed control of the mobile robot. To achieve the real time speed control of the unicycle robot, the sliding mode control and optical regulator are utilized to prove the reliability while maintaining the desired speed tracking performance. In the roll controller, the sigmoid-function based robust controller has been adopted to reduce the vibration by the situation function. The optimal controller has been implemented for the pitch control to drive the unicycle robot to follow the desired velocity trajectory in real time using the state variables of pitch angle, angular velocity, angle and angular velocity of the driving wheel. The control performance of the control systems from a single dynamic model has been illustrated by the real experiments.

덕티드 팬을 이용한 외바퀴 자전거로봇의 균형 제어 (Balancing Control of a Unicycle Robot using Ducted Fans)

  • 이종현;신혜정;정슬
    • 제어로봇시스템학회논문지
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    • 제20권9호
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    • pp.895-899
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    • 2014
  • This paper presents the balancing control of a unicycle robot using air power. Since the robot has one wheel to move forward and backward, the balancing control is quite challenging. To control the balancing angle, the accurate angle estimation by a tilt and a gyro sensor is required a priori. A complementary filter is implemented to eliminate the defects of two sensors and to fuse together to estimate an accurate balancing angle. The optimal design of air ducts is found empirically. Experimental studies of the balancing control of a unicycle robot confirm that the robot is well regulated without falling down.

외바퀴 로봇의 Yaw 방향 회전 제어 (Rotation control for the Yaw-direction of Unicycle Robot)

  • 황종명;배동석;이장명
    • 로봇학회논문지
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    • 제3권4호
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    • pp.331-337
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    • 2008
  • The field of robots is being widely accepted as a new technology today. Many robots are produced continuously to impart amusement to people. Especially the robot which operates with a wheelbarrow was enough of a work of art to arouse excitement in the audiences. All the wheelbarrow robots share the same technology in that the direction of roll and pitch are acting as balance controllers, allowing the robots to maintain balance for a long period by continuously moving forward and backward. However one disadvantage of this technology is that they cannot avoid obstacles in their way. Therefore movement in sideways is a necessity. For the control of rotation of yawing direction, the angle and direction of rotation are adjusted according to the velocity and torque of rotation of a motor. Therefore this study aimed to inquire into controlling yawing direction, which is responsible for rotation of a robot. This was followed by creating a simulation of a wheelbarrow robot and equipping the robot with a yawing direction controlling device in the center of the body so as to allow sideway movements.

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