Hyper-Redundant Manipulator Capable of Adjusting Its Non-Uniform Curvature with Discrete Stiffness Distribution

Kwon, Seong-il; Kim, Jeongryul; Moon, Yonghwan; Kim, Keri

doi:10.3390/app12010482

Cited by 2 publications

(2 citation statements)

References 16 publications

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“…The motion control problem of the robot arm is mainly aimed at improving the motion accuracy of the robot arm. It can make the robot work under more difficult and complex tasks, such as robot surgery [4] and robot precision assembly [5] , etc., which has been a hot topic in the field of robot control. However, the precision control of redundant manipulator is a very complex problem.…”

Section: Introductionmentioning

confidence: 99%

Anti-noise kinematic controller for redundant manipulators based on model driven neural network

Chen¹,

Su²

2023

Third International Seminar on Artificial Intelligence, Networking, and Information Technology (AINIT 2022)

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In this paper, a model-based anti-noise neural network controller for redundant robot motion control is proposed for motion control of redundant robots with uncertain kinematic parameters. The main challenge of this problem is the coexistence of parameter uncertainty, redundancy resolution, and system physical constraints. Therefore, a new model - driven neural network controller is proposed in this paper. A class of nodes are introduced to deal with the kinematic parameter uncertainty of the system. On this basis, the selection of the initial value of the hyperparameter of the neural network is deeply analyzed, and this processing has a positive effect on accelerating the convergence of the tracking error. The proposed controller has the advantages of simple structure, small computation and simple implementation. The simulation of Kinova Jaco2 manipulator verifies the effectiveness of the proposed algorithm.

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Section: Introductionmentioning

confidence: 99%

Anti-noise kinematic controller for redundant manipulators based on model driven neural network

Chen¹,

Su²

2023

Third International Seminar on Artificial Intelligence, Networking, and Information Technology (AINIT 2022)

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“…The cable-driven snake-arm robot has been widely used in different fields, such as minimally invasive surgery [ 1 , 2 ], industrial inspection [ 3 , 4 ], and field rescue [ 5 ] in confined environments, since it has significant advantages because of its multi-DOF bending motion. Each segment of the cable-driven snake-arm robot is mainly composed of several identical 1-DOF joints or 2-DOF joints connected in series by multi-side cables.…”

Section: Introductionmentioning

confidence: 99%

Equilibrium Conformation of a Novel Cable-Driven Snake-Arm Robot under External Loads

et al. 2022

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Based on the anti-parallelogram mechanism, an approximate cylindrical rolling joint is proposed to develop a novel cable-driven snake-arm robot with multiple degrees of freedom (DOF). Furthermore, the kinematics of the cable-driven snake-arm robot are established, and the mapping between actuator space and joint space is simplified by bending decoupling motion in the multiple segments. The workspace and bending configurations of the robot are obtained. The static model is established by the principle of minimum potential energy. Furthermore, the simplified cable constraints in the static model are proposed through Taylor expansion, which facilitates the equilibrium conformation analysis of the robot under different external forces. The cable-driven snake-arm robot prototype is developed to verify the feasibility of the robot design and the availability of the static model through the experiments of the free bending motion and the external load on the robot.

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Hyper-Redundant Manipulator Capable of Adjusting Its Non-Uniform Curvature with Discrete Stiffness Distribution

Cited by 2 publications

References 16 publications

Anti-noise kinematic controller for redundant manipulators based on model driven neural network

Anti-noise kinematic controller for redundant manipulators based on model driven neural network

Equilibrium Conformation of a Novel Cable-Driven Snake-Arm Robot under External Loads

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