Stable control of the bicycle robot on a curved path by using a reaction wheel

A new velocity and balance control algorithm for the RWBR (Reaction wheel bicycle robot) has been proposed in this paper. A reaction wheel is adopted to maintain a balance while the RWBR is driving, which allows the process of controlling the speed to be achieved concurrently with the one of control...

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Published in	Journal of mechanical science and technology Vol. 29; no. 5; pp. 2219 - 2226
Main Authors	Kim, Yunki, Kim, Hyunwoo, Lee, Jangmyung
Format	Journal Article
Language	English
Published	Seoul Korean Society of Mechanical Engineers 01.05.2015 Springer Nature B.V 대한기계학회
Subjects	Acceleration Algorithms Bicycles Centrifugal force Control Control algorithms Control stability Control systems design Control theory Controllers Dynamical Systems Engineering Floors Friction Industrial and Production Engineering Mechanical Engineering Proportional integral derivative Reaction wheels Robot control Robots Roll Rolls Steering Vibration 기계공학 Process of controlling the balance Centrifugal force Friction cone Reaction wheel S-curved motion Bicycle robot
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ISSN	1738-494X 1976-3824
DOI	10.1007/s12206-015-0442-1

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Abstract	A new velocity and balance control algorithm for the RWBR (Reaction wheel bicycle robot) has been proposed in this paper. A reaction wheel is adopted to maintain a balance while the RWBR is driving, which allows the process of controlling the speed to be achieved concurrently with the one of controlling the balance. To control the speed of the bicycle robot, a PID control algorithm with the adjustment of variable gains is developed in this study, where the gains are heuristically adjusted during each experiment. For the control of the balance and stability, a roll controller is designed by using the model-based algorithm to provide the shortest possible cycle for the bicycle controller. The roll angle is measured to maintain the desired acceleration which generates the reaction force to keep the total force acting on the bicycle robot inside the friction cone. The desired roll acceleration is decided for the bicycle robot in order to prevent it from falling down to the floor with the minimum usage of the reaction wheel rotation. For the general driving of the bicycle robot such as the S-curved driving, the dynamic forces of centrifugal, gravity and steering change are modeled and the friction on the floor has been estimated. The performance of the designed control system is verified through the real experiments with the developed RWBR.
AbstractList	A new velocity and balance control algorithm for the RWBR (Reaction wheel bicycle robot) has been proposed in this paper. A reaction wheel is adopted to maintain a balance while the RWBR is driving, which allows the process of controlling the speed to be achieved concurrently with the one of controlling the balance. To control the speed of the bicycle robot, a PID control algorithm with the adjustment of variable gains is developed in this study, where the gains are heuristically adjusted during each experiment. For the control of the balance and stability, a roll controller is designed by using the model-based algorithm to provide the shortest possible cycle for the bicycle controller. The roll angle is measured to maintain the desired acceleration which generates the reaction force to keep the total force acting on the bicycle robot inside the friction cone. The desired roll acceleration is decided for the bicycle robot in order to prevent it from falling down to the floor with the minimum usage of the reaction wheel rotation. For the general driving of the bicycle robot such as the S-curved driving, the dynamic forces of centrifugal, gravity and steering change are modeled and the friction on the floor has been estimated. The performance of the designed control system is verified through the real experiments with the developed RWBR. A new velocity and balance control algorithm for the RWBR (Reaction wheel bicycle robot) has been proposed in this paper. A reactionwheel is adopted to maintain a balance while the RWBR is driving, which allows the process of controlling the speed to be achievedconcurrently with the one of controlling the balance. To control the speed of the bicycle robot, a PID control algorithm with the adjustmentof variable gains is developed in this study, where the gains are heuristically adjusted during each experiment. For the control of thebalance and stability, a roll controller is designed by using the model-based algorithm to provide the shortest possible cycle for the bicyclecontroller. The roll angle is measured to maintain the desired acceleration which generates the reaction force to keep the total forceacting on the bicycle robot inside the friction cone. The desired roll acceleration is decided for the bicycle robot in order to prevent itfrom falling down to the floor with the minimum usage of the reaction wheel rotation. For the general driving of the bicycle robot such asthe S-curved driving, the dynamic forces of centrifugal, gravity and steering change are modeled and the friction on the floor has beenestimated. The performance of the designed control system is verified through the real experiments with the developed RWBR. KCI Citation Count: 0
Author	Kim, Hyunwoo Kim, Yunki Lee, Jangmyung
Author_xml	– sequence: 1 givenname: Yunki surname: Kim fullname: Kim, Yunki organization: School of Electrical and Computer Engineering, Pusan National University – sequence: 2 givenname: Hyunwoo surname: Kim fullname: Kim, Hyunwoo organization: ICT Convergence Technology Team, Research Institute of Medium & Small Shipbuilding – sequence: 3 givenname: Jangmyung surname: Lee fullname: Lee, Jangmyung email: jmlee@pusan.ac.kr organization: School of Electrical and Computer Engineering, Pusan National University
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Cites_doi	10.5302/J.ICROS.2012.18.6.532 10.1109/ICINFA.2010.5512472 10.1007/s12206-013-0219-3 10.1007/s12206-012-1209-6 10.1109/ICRA.2011.5979991 10.1007/s12206-012-0541-1 10.1016/j.cma.2005.09.025 10.1109/TII.2005.864143 10.5302/J.ICROS.2014.13.1985 10.1109/AMC.2004.1297665 10.1080/00207720802095137 10.20965/ijat.2011.p0916
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Keywords	Process of controlling the balance Centrifugal force Friction cone Reaction wheel S-curved motion Bicycle robot
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Snippet	A new velocity and balance control algorithm for the RWBR (Reaction wheel bicycle robot) has been proposed in this paper. A reaction wheel is adopted to... A new velocity and balance control algorithm for the RWBR (Reaction wheel bicycle robot) has been proposed in this paper. A reactionwheel is adopted to...
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SubjectTerms	Acceleration Algorithms Bicycles Centrifugal force Control Control algorithms Control stability Control systems design Control theory Controllers Dynamical Systems Engineering Floors Friction Industrial and Production Engineering Mechanical Engineering Proportional integral derivative Reaction wheels Robot control Robots Roll Rolls Steering Vibration 기계공학
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Title	Stable control of the bicycle robot on a curved path by using a reaction wheel
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ispartofPNX	Journal of Mechanical Science and Technology, 2015, 29(5), , pp.2219-2226
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