Trajectory optimization of flexible mobile manipulators

H. Ghariblu; M. H. Korayem

doi:10.1017/S0263574705002225

Abstract

A computational algorithm is developed to find a dynamic motion trajectory of a mobile manipulator with flexible links and joints that will allow the robot to carry a maximum load between two specified end positions. A compact form of the linearized state space dynamic equations is organized as well as constraint equations. Then, the problem of finding a maximum load carrying capacity on flexible mobile manipulators is formulated as a trajectory optimization problem.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Heidari, Amir and Nikoobin, Amin 2007. Maximum allowable dynamic load of flexible manipulators with imposing residual vibration constraint. p. 1457.

Korayem, M. H. and Nikoobin, A. 2008. Maximum payload for flexible joint manipulators in point-to-point task using optimal control approach. The International Journal of Advanced Manufacturing Technology, Vol. 38, Issue. 9-10, p. 1045.

Korayem, M. H. and Nohooji, H. Rahimi 2008. Intelligent Robotics and Applications. Vol. 5314, Issue. , p. 54.

Korayem, M. H. Nikoobin, A. and Azimirad, V. 2009. Trajectory optimization of flexible link manipulators in point-to-point motion. Robotica, Vol. 27, Issue. 6, p. 825.

Korayem, M. H. Nikoobin, A. and Azimirad, V. 2009. Maximum load carrying capacity of mobile manipulators: optimal control approach. Robotica, Vol. 27, Issue. 1, p. 147.

Korayem, M. H. and Nikoobin, A. 2009. Maximum payload path planning for redundant manipulator using indirect solution of optimal control problem. The International Journal of Advanced Manufacturing Technology, Vol. 44, Issue. 7-8, p. 725.

Korayem, M. H. Haghpanahi, M. Rahimi, H. N. and Nikoobin, A. 2009. New Advances in Intelligent Decision Technologies. Vol. 199, Issue. , p. 117.

Korayem, M.H. Azimirad, V. Tabibian, B. and Abolhasani, M. 2010. Analysis and experimental study of non-holonomic mobile manipulator in presence of obstacles for moving boundary condition. Acta Astronautica, Vol. 67, Issue. 7-8, p. 659.

Korayem, M. H. Azimirad, V. Vatanjou, H. and Korayem, A. H. 2012. Maximum load determination of nonholonomic mobile manipulator using hierarchical optimal control. Robotica, Vol. 30, Issue. 1, p. 53.

Korayem, Moharam Habibnejad Rahimi, H.N. and Nikoobin, A. 2012. Mathematical modeling and trajectory planning of mobile manipulators with flexible links and joints. Applied Mathematical Modelling, Vol. 36, Issue. 7, p. 3229.

Korayem, Moharam Habibnejad Nazemizadeh, Mostafa and Nohooji, Hamed Rahimi 2012. Smooth Jerk-Bounded Optimal Path Planning of Tricycle Wheeled Mobile Manipulators in the Presence of Environmental Obstacles. International Journal of Advanced Robotic Systems, Vol. 9, Issue. 4,

Qingxuan Jia Wei Yao Gang Chen and Hanxu Sun 2013. The trajectory tracking of space flexible manipulator with large payloads based on optimal control. p. 1569.

Korayem, M. H. Nazemizadeh, M. and Rahimi, H. N. 2013. Trajectory optimization of nonholonomic mobile manipulators departing to a moving target amidst moving obstacles. Acta Mechanica, Vol. 224, Issue. 5, p. 995.

Senba, Atsuhiko Oka, Kosuke Takahama, Morio and Furuya, Hiroshi 2013. Vibration reduction by natural frequency optimization for manipulation of a variable geometry truss. Structural and Multidisciplinary Optimization, Vol. 48, Issue. 5, p. 939.

Korayem, M. H. Azimirad, V. and Irani Rahagi, M. 2014. Maximum Allowable Load of Mobile Manipulator in the Presence of Obstacle Using Non-Linear Open and Closed Loop Optimal Control. Arabian Journal for Science and Engineering, Vol. 39, Issue. 5, p. 4103.

Korayem, M.H. Nazemizadeh, M. and Rahimi, H.N. 2014. Dynamic optimal payload path planning of mobile manipulators among moving obstacles. Advanced Robotics, Vol. 28, Issue. 20, p. 1389.

Du, Heng Zhang, Yuan Cai, Wenjie Chen, Hui and Lin, Xiangwu 2017. The trajectory optimization of mobile crossbeam in composite hydraulic press based on modified multi-island genetic algorithm. Journal of the Chinese Institute of Engineers, Vol. 40, Issue. 3, p. 219.

Shafei, A. M. and Korayem, M. H. 2017. Theoretical and experimental study of dynamic load‐carrying capacity for flexible robotic arms in point‐to‐point motion. Optimal Control Applications and Methods, Vol. 38, Issue. 6, p. 963.

Amini, Shoja Dehkordi, Siavash Fathollahi and Fahraji, Sajad Hosseini 2017. Motion equation derivation and tip-over evaluations for K mobile manipulators with the consideration of motors mass by the use of Gibbs-Appell formulation. p. 502.

Monfared, Pedram Mojarradi, Morteza and Dehkordi, Siavash Fathollahi 2017. Theoretical and experimental dynamic evaluations of revolute-prismatic joints manipulator contains N-rigid links and hubs. p. 57.

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Trajectory optimization of flexible mobile manipulators

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