Ruslan Kolesnichenko scite author profile

Ruslan Kolesnichenko

4Publications

2Citation Statements Received

0Citation Statements Given

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How they cite others

Affiliations

Moscow State Technological University, University of Technology

Publications

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Impedance Control of High-Precision Geared Servo Drives with Two Motors for Technological Robots

Ilyukhin¹,

Kolesnichenko²

2016

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The article discusses the possibility and advisability of application of high precision geared servo drives with two motors for milling, drilling and deburring by technological robots. We conducted an analysis of the dynamic properties of drives containing elastic mechanical transmission with backlash. We offered advice on selecting of the structure and parameters of regulators. The results of the theoretical research and computer simulation confirm the high precision of movements and the effectiveness of the proposed algorithms of impedance control, which considerably improves dynamic properties of drives of technological robots.

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Accuracy of Milling by Robots with Two-Motor Servo Drives

Ilyukhin

Kolesnichenko

2019

Russ. Engin. Res.

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An Increase in Accuracy of Robotic Milling

Ilyukhin

Kolesnichenko

2017

AMM

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The results of the theoretical research and the computer simulation, aimed at increase in accuracy of robotic milling, are presented in the article. An analysis of the mathematical models of the system «technological robot – milling process» is conducted. The prospects of the usage of precision geared dual motor servo drives and trajectory-impedance control systems are underlined. A computer research of the tool movement accuracy during the robotic cylindrical up-milling process, depending on path velocity of the milling cutter and rated value of the cutting depth, has been carried out. Two types of manipulators have been considered: a manipulator with traditional geared servo drives with one motor and a manipulator with the suggested precision dual motor drives. In order to measure accuracy of movements during the computer simulation process a deviation of the tool, normal to the desired trajectory of its movement, has been defined. The results testify the facts that dual motor servo drives allow us to significantly increase dynamic stiffness of technological robots and they promote increasing accuracy and performance of robotic milling.

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Experimental study of the dynamic properties of high-precision dual-motor geared servo drives for technological robots

Kolesnichenko¹

2020

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