Pavel Ganin scite author profile

The paper considers the possibility of constructing a kinematic control algorithm for manipulating robots with a serial-connected links. The construction of a control system based on a fuzzy neural network is proposed. The results of experimental studies on the selection of parameters of a fuzzy neural network in accordance with the set optimality criterion (in terms of speed), taking into account the subsequent iterative refinement by the Newton-Raphson method, are presented. The following network parameters are considered: the number and type of node membership functions, the size of the training sample with a different number of training approaches. An algorithm for forming a training sample for fuzzy neural networks is proposed in order to reduce the positioning error of the working body of the manipulating mechanism near the outer boundary of the workspace. The possibility of adapting the kinematic control algorithms by adjusting the parameters of the membership functions in the network nodes when performing the same type of tasks, based on the data of the Newton-Raphson refinement algorithm, is demonstrated. In the framework of this work, a comparative analysis of the developed kinematic control algorithm with algorithms based on iterative and neural network methods for solving the inverse kinematics problem of a manipulative robot is carried out. The conclusion is made about the increase in the speed for calculations of kinematic control algorithms while maintaining the required accuracy

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Redundant Manipulator Control System Simulation with Adaptive Neural Network and Newton-Raphson Refinement Algorithm

Ganin

Kobrin

2018

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Simulation Manipulator Based on Step Motors Festo

Ganin¹,

Kobrin²,

Belousov³

et al. 2015

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Synthesis of Real-Time Control Systems for Multilink Industrial Robots Based on Hybrid Neural Network Approach of Solution Inverse Kinematics Problem

Ganin¹,

Kobrin²,

Shilin³

et al. 2019

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The paper considers the issue of constructing real-time control systems based on a new developed hybrid method for solving the inverse kinematics problem. A method based on neuro-fuzzy network (ANFIS) with subsequent iterative refinement of the obtained solution by Newton-Raphson numerical method is proposed. Studies of the applicability of this method in control systems for three-, five-and eight-link robotic manipulators structures are carried out. The comparative analysis of methods for solution of IK problem: classical iterative, method based on neural network and the proposed hybrid is presented. The possibility of adaptation of neural networks for the developed IK method using a corrective buffer is considered. The solution as the system of equations for direct kinematics of multi-link structures is given.

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Pavel Ganin

A Procedure for Synthesizing a Hybrid Real-time Neural System for Solving a Redundant Manipulator’s Inverse Kinematics Problem

Algorithms for Kinematic Control of Multi-Link Manipulation Robots Based on a Fuzzy Neural Network

Redundant Manipulator Control System Simulation with Adaptive Neural Network and Newton-Raphson Refinement Algorithm

Simulation Manipulator Based on Step Motors Festo

Synthesis of Real-Time Control Systems for Multilink Industrial Robots Based on Hybrid Neural Network Approach of Solution Inverse Kinematics Problem

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