Design and analysis of a shape-transformable polyhedral mechanism with transformation between a truncated tetrahedron and a tetrahedron

Kong, Fanchen; Liu, Jingfang; Ding, Huafeng

doi:10.1177/0954406220922864

Cited by 3 publications

(1 citation statement)

References 26 publications

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“…The dynamics solver solves the robot and PTL subsystems, respectively, by the contact estimator, which fully considers the pressure and friction between the robot and PTL. [16][17][18] The robot made by the Special Robot Research Institute of Wuhan University [19][20][21] is modeled by screw theory, [22][23][24] while the PTL including LGJ-400/35 four-split conductor is modeled using absolute node coordinate formulation (ANCF). [25][26][27] The coupling dynamical equation (1) can systematically cover the influence of the interaction between the robot and PTL…”

Section: Dynamic Environment With Rigid-flexible Couplingmentioning

confidence: 99%

Kinodynamic planning with reachability prediction for PTL maintenance robot

Zheng

2021

Proceedings of the Institution of Mechanical Engineers, Part I:

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This article presents a novel method—Dynamic Environment Rapid Search Tree—for power transmission line maintenance robot, which is based on the learned field function of reachability and the genetic best-first policy. Dynamic Environment Rapid Search Tree uses a priori information to optimize the node selection strategy in the rigid–flexible coupling environment with slight perturbation and generates the joint path in the configuration space. While the search tree rapidly extends toward the goal configuration, it effectively avoids the obstacles and greatly reduces the expansion of the irrelevant region. Finally, the joint trajectory considering the dynamic constraints and cost function is given, which provides the reference positions and torques for the robot controller. Traditional planning algorithms are compared with our proposed method under two different operation modes, and the planner is demonstrated on the robot under real settings. The experiment results verify the feasibility and adaptiveness of the proposed algorithm and planner, even in slightly and continuously varying environment.

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Section: Dynamic Environment With Rigid-flexible Couplingmentioning

confidence: 99%

Kinodynamic planning with reachability prediction for PTL maintenance robot

Zheng

2021

Proceedings of the Institution of Mechanical Engineers, Part I:

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Configuration Synthesis of Tetrahedral Mechanisms Containing P and S Pairs

Kong

Liu

Ding

2023

Lecture Notes in Mechanical Engineering

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Type Synthesis of Modular Polyhedral Mechanisms Based on the Generalized Mechanism Models of Regular Polyhedron

Kong

Liu

Ding

et al. 2022

Journal of Mechanical Design

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An integrated type synthesis method for polyhedral mechanisms based on polyhedron is proposed. The properties of the polyhedron are considered and the corresponding generalized mechanism is built based on strategies that geometric components are regarded as construction members. Topological graph and configuration matrix are used to describe the generalized mechanism. The target mechanism and its descriptions are obtained from the generalized mechanism via designing the construction members appropriately. Possible types are then enumerated using set operations according to the configuration matrix. The axes of the kinematic pairs are set based on the geometric properties of the polyhedron. Degrees-of-freedom (DOFs) of those possible types are calculated by using the modified G–K criterion based on screw theory, and the type synthesis results with DOF more than 0 are obtained. Tetrahedral mechanisms with revolute and sliding pairs are synthesized, and they have 135 configuration results with lower-mobility, which validates the accuracy and effectiveness of the proposed method. Some application examples of the tetrahedral mechanisms are further illustrated for potential values of synthesized mechanisms in robot field.

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Design and analysis of a shape-transformable polyhedral mechanism with transformation between a truncated tetrahedron and a tetrahedron

Cited by 3 publications

References 26 publications

Kinodynamic planning with reachability prediction for PTL maintenance robot

Kinodynamic planning with reachability prediction for PTL maintenance robot

Configuration Synthesis of Tetrahedral Mechanisms Containing P and S Pairs

Type Synthesis of Modular Polyhedral Mechanisms Based on the Generalized Mechanism Models of Regular Polyhedron

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