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Minimum control effort trajectory planning and tracking of the CEDRA brachiation robot [electronic resource]

Meghdari, A. (Ali) ; Sharif University of Technology

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  1. Type of Document: Article
  2. DOI: 10.1017/S0263574713000362
  3. Abstract:
  4. The control of a brachiation robot has been the primary objective of this study. A brachiating robot is a type of a mobile arm that is capable of moving from branch to branch similar to a long-armed ape. In this paper, to minimize the actuator work, Pontryagin's minimum principle was used to obtain the optimal trajectories for two different problems. The first problem considers “brachiation between fixed branches with different distance and height,” whereas the second problem deals with the “brachiating and catching of a moving target branch”. Theoretical results show that the control effort in the proposed method is reduced by 25% in comparison with the “target dynamics” method which was proposed by Nakanishi et al. (1998)16 for the same type of robot. As a result, the obtained optimal trajectory also minimizes the brachiation time. Two kinds of controllers, namely the proportional-derivative (PD) and the adaptive robust (AR), were investigated for tracking the proposed trajectories. Then, the previous method on a set-point controller for acrobat robots is improved to represent a new AR controller which allows the system to track the desired trajectory. This new controller has the capability to be used in systems which have uncertainties in the kinematic and dynamic parameters. Finally, theoretical results are presented and validated with experimental observations with a PD controller due to the no chattering phenomenon and small computational efforts
  5. Keywords:
  6. Brachiation robot ; Minimum effort optimal control ; Irregular ladder ; Moving target bar ; Adaptive robust tracking control ; PD tracking control
  7. Source: Robotica ; Robotica / Volume 31 / Issue 07 / October 2013, pp 1119-1129
  8. URL: http://journals.cambridge.org/action/displayAbstract?fromPage=online&aid=9029299&fileId=S0263574713000362