Parallel Dynamics Computation and H∞ Acceleration Control of Parallel Manipulators for Acceleration Display

Yamane, Katsu; Nakamura, Yoshihiko; Okada, Masafumi; Komine, Noriaki; Yoshimoto, Kenichi

doi:10.1115/1.1898229

Cited by 16 publications

(6 citation statements)

References 5 publications

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“…Equation (4) indicates that the distance between each tip of the fingers is constrained be constant and it could be used to specify the coupling relationship between the joint coordinates. Assume that i S Q is the externally applied force between the slider and their corresponding ball screw as shown in Fig.…”

Section: B Dynamic Modelmentioning

confidence: 99%

Robust decentralized joint control of a 3-PRS parallel mechanism based on a simplified model

Tsai

Yuan

2011

2011 Chinese Control and Decision Conference (CCDC)

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In this paper, a simplified dynamic model is proposed for a 3-PRS (Prismatic, Revolute, Spherical) parallel mechanism. The dynamic model is formulated in the joint space where three holonomic constraint equations are constructed to specify the coupling relationships between the actuated legs. Since the symbolic expressions of the dynamics for the moving platform are complicated in the joint space, they are simplified and only the gravity force is considered. Based on the simplified model, a robust decentralized joint control algorithm is proposed where a disturbance observer is embedded in the control loop to compensate the disturbance resulted from the simplification. Computer simulation is performed on a circular cutting trajectory to investigate the effectiveness of the proposed simplified dynamic model.

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Section: B Dynamic Modelmentioning

confidence: 99%

Robust decentralized joint control of a 3-PRS parallel mechanism based on a simplified model

Tsai

Yuan

2011

2011 Chinese Control and Decision Conference (CCDC)

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“…In order to apply the vast control literature developed for the serial counterparts to redundantly actuated parallel manipulators, it is necessary to develop an efficient dynamic model. There are many papers on dynamics and control of parallel manipulators with non-redundant actuation [16][17][18][19]. However, research on dynamics and control of redundantly actuated parallel manipulators is relatively fewer.…”

Section: Introductionmentioning

confidence: 99%

Dynamics and control of a planar 3-DOF parallel manipulator with actuation redundancy

Jun

Wang

et al. 2009

Mechanism and Machine Theory

278

101

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“…The efficiency of the simplified model neglecting leg inertia can be improved, but the accuracy may be reduced greatly. To shorten the execution time of full dynamic model of general parallel manipulator, Li et al [18] used 32 CPUs to do the parallel computation of the dynamics within 0.25 ms. Yamane et al [19] applied 4 CPUs and multi-thread programming to implement parallel processing of the dynamics. The parallel algorithm can improve the computational efficiency of the dynamics without losing accuracy, yet it needs complicated software and hardware which limit the application of the algorithm.…”

Section: Introductionmentioning

confidence: 99%

Dynamic modeling and computational efficiency analysis for a spatial 6-DOF parallel motion system

et al. 2011

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A common approach for simplification analysis of complex dynamic model is presented, and the simplified dynamic model of a spatial 6-DOF parallel motion system with high computational efficiency is proposed for high real time control. By using Kane method, the full dynamic model of a spatial 6-DOF parallel motion system viewed as 13 rigid bodies is built. With rigid body decomposition, the full dynamic model is separated into several parts firstly, and then some separated parts are further divided into many dynamic components in terms of motion separation and the relationship with acceleration or velocity. The contribution of each dynamic term is analyzed for a specified spatial 6-DOF parallel motion system, and the simplified model is derived. Comparing with full dynamic model, the simplified error is analyzed, and the computational efficiency of the simplified model is discussed in a real-time industrial computer. The simplified strategy is confirmed in simulation. The simplified error is less than 8%, the simplified model can improve the computational efficiency by more than 70%, and the execution time is less than 0.1 ms, which can achieve the requirements of high real time control. The numerical results illustrate that the proposed approach is feasible and effective for simplification analysis of dynamics and the derived simplified dynamic model can be used in real-time control system with small simplified error.

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Parallel Dynamics Computation and H∞ Acceleration Control of Parallel Manipulators for Acceleration Display

Cited by 16 publications

References 5 publications

Robust decentralized joint control of a 3-PRS parallel mechanism based on a simplified model

Robust decentralized joint control of a 3-PRS parallel mechanism based on a simplified model

Dynamics and control of a planar 3-DOF parallel manipulator with actuation redundancy

Dynamic modeling and computational efficiency analysis for a spatial 6-DOF parallel motion system

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