Solving the dynamic equations of a 3-PRS Parallel Manipulator for  efficient model-based designs

Díaz‐Rodríguez, Miguel; Carretero, Juan A.; Bautista-Quintero, Ricardo

doi:10.5194/ms-7-9-2016

Cited by 7 publications

(4 citation statements)

References 22 publications

(39 reference statements)

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“…e thrust-vectoring mechanism is designed based on 3-RPS manipulator, which has a top rotting platform, a fixed base, and three identical sets of driving limbs and joints. Each driving limb has an actuating prismatic joint (P) attached to the fixed base by a rotational joint (R) and connected to the platform by a spherical joint (S) [53][54][55]. Each limb is driven by a linear actuator.…”

Section: The General Design Of Vectored Thrustermentioning

confidence: 99%

Investigation of an Underwater Vectored Thruster Based on 3RPS Parallel Manipulator

Liu

et al. 2020

Mathematical Problems in Engineering

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Autonomous underwater vehicles (AUVs) are important and useful tool platforms in exploring and utilizing ocean resource. However, the effect of control surfaces would decrease even invalid complete in this condition, and it is very hard for conventional AUVs to perform detailed missions at a low forward speed. Therefore, solving this problem of AUVs becomes particularly important to increase the application scope of AUVs. In this paper, we present a design scheme for the vectored thruster AUV based on 3RPS parallel manipulator, which is a kind of parallel manipulator and has advantages of compact structure and reliable performance. To study the performance and characteristics of the proposed thrust-vectoring mechanism, a series of works about corresponding kinematic and dynamic analysis have been performed through the theoretical analysis and numerical simulation. In the part of kinematics, the inverse, forward kinematics, and workspace analysis of the thrust-vectoring mechanism is presented, and the numerical simulations are accomplished to prove the feasibility and effectiveness of this design in AUVs. In order to further verify feasibility of the thrust-vectoring mechanism, based on the considerations of various affecting factors, a dynamic model of the designed thrust-vectoring mechanism is established according to theoretical analysis, and the driving forces of the linear actuator are presented through a series of numerical simulations. In addition, a control scheme based on PID algorithm is proposed for the designed vectored thruster with considering various affecting factors and the application environment. Meanwhile, the control scheme is also established and verified in MATLAB Simscape Mutibody. A series of numerical simulations of the thrust-vectoring mechanism prove the feasibility of the vectored thruster. According to equipping the designed vectored thruster, the AUVs can overcome the limit of weakening the control ability at zero or low forward speeds, and this improvement also expands the application of it, which has been scaled greatly.

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Section: The General Design Of Vectored Thrustermentioning

confidence: 99%

Investigation of an Underwater Vectored Thruster Based on 3RPS Parallel Manipulator

Liu

et al. 2020

Mathematical Problems in Engineering

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“…As an example of the forward kinematics solution for a 3-PRS manipulator, let the manipulator parameters be taken as L 1…”

Section: Numerical Verification For Forward Kinematicsmentioning

confidence: 99%

“…Based on the previous research, most of the parallel manipulators forward and inverse kinematics solutions are solved in closed form [1] [2] and its solutions are compared by simulation results [3] [4][5] [6]. The kinematic design, architecture optimization and actuator layout angles of 3-PRS parallel manipulator are investigated based on the performance index and various simulation software packages are used to verify the results obtained [7][14] [15].…”

Section: Introductionmentioning

confidence: 99%

A Numerical Approach for 3 PRS Parallel Manipulator

A¹

2018

IJET

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This paper presents a numerical approach on kinematic analysis of 3-DOF parallel manipulator (PM). The proposed mechanisms constitute of PRS (Prismatic-Revolute-Spherical) parallel mechanism with two rotations and one translation. The forward and inverse kinematic equations of the PM are derived by position vector method. A total of 48 solutions are obtained for the forward kinematic equations using MATLAB.

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“…The study of dynamic problems can be an effective guideline for optimal design of this type of manipulator and for real-time embedded control. 4 Unlike serial manipulators, an explicit dynamic formulation of the SPM is much more complicated due to the closed kinematic chain. The literature on dynamic modeling of PMs mainly falls into four categories: Euler–Lagrange formulation, 5,6 Newton–Euler laws, 8,9 Kane method, 10–12 the principle of virtual work, 13–16 and Gibbs–Appell equations.…”

Section: Introductionmentioning

confidence: 99%

An efficient method for the dynamic modeling and analysis of Stewart parallel manipulator based on the screw theory

Hou

Zhang

Zeng

2019

Proceedings of the Institution of Mechanical Engineers, Part C:

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Dynamic modeling serves as the fundamental basis for dynamic performance analysis and is an essential aspect of the control scheme design of parallel manipulators. This report presents a concise and efficient solution to the dynamics of Stewart parallel manipulators based on the screw theory. The initial pose of these manipulators is described. Then the pose matrix of each link of the Stewart parallel mechanism is obtained using an inverse kinematics solution and an exponential product formula. Considering the constraint relationship between joints, the constraint matrix of the Stewart parallel manipulator is deduced. In addition, the Jacobian matrix and the twist of each link are obtained. Moreover, by deriving the differential form of the constraint matrix, the spatial acceleration of each link is obtained. Based on the force balance relationship of each link, the inverse dynamics and the general form of the dynamic model of the Stewart parallel manipulator is established and the process of inverse dynamics is summarized. The dynamic model is then verified via dynamic simulation using the ADAMS software. A numerical example is considered to demonstrate the feasibility and effectiveness of this model. The proposed dynamic modeling approach serves as a fundamental basis for structural optimization and control scheme design of the Stewart parallel manipulators.

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Solving the dynamic equations of a 3-PRS Parallel Manipulator for efficient model-based designs

Cited by 7 publications

References 22 publications

Investigation of an Underwater Vectored Thruster Based on 3RPS Parallel Manipulator

Investigation of an Underwater Vectored Thruster Based on 3RPS Parallel Manipulator

A Numerical Approach for 3 PRS Parallel Manipulator

An efficient method for the dynamic modeling and analysis of Stewart parallel manipulator based on the screw theory

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