Teleoperation system for a mobile robot with visual servo mechanism based on automatic template generation

被引：9

作者：

Matsuda Y. ^{[1
]}

Sugi T. ^{[1
]}

Goto S. ^{[1
]}

Egashira N. ^{[2
]}

机构：

[1] Department of Advanced Technology Fusion, Graduate School of Science and Engineering, Saga University, 1 Honjo-machi, Saga

[2] Department of Control and Information Systems Engineering, National Institute of Technology, Kurume College, 1-1-1 Komorino, Kurume, 830-8555, Fukuoka

来源：

Artificial Life and Robotics | 2017年 / 22卷 / 04期

关键词：

Automatic template generation; Mobile robot; Teleoperation; Visual servoing;

D O I：

10.1007/s10015-017-0374-1

中图分类号：

学科分类号：

摘要：

In this paper, a teleoperation system for a mobile robot with visual servo mechanism is developed. The teleoperation system has two kinds of motions: rough motion and accurate motion. In the rough motion, the mobile robot is controlled manually. In the accurate motion, it is done autonomously by visual servoing, where the template matching technique is used to realize the visual servoing. The template image is automatically generated by only assigning one pixel of the target object. The usefulness of the developed teleoperation system is evaluated by experimental result for the automatic template generation and the teleoperation. © 2017, ISAROB.

引用

页码：490 / 496

页数：6

共 16 条

[1]

Sheridan T., Teleoperation, telerobotics and telepresence: a progress report, Control Eng Pract, 3, 2, pp. 204-214, (1995)

[2]

Bradski G., Kaehler A., Learning OpenCV: computer vision with the OpenCV library, (2008)

[3]

Hutchinson S., Hager G.D., Corke P.I., A tutorial on visual servo control, IEEE Trans Robot Autom, 12, 5, pp. 651-670, (1996)

[4]

Pallegedara A., Matsuda Y., Matsumoto T., Tsukamoto K., Egashira N., Goto S., Teleoperation of robot arms using force-free control and template matching, Int J Innov Comput Inf Control, 8, 10A, pp. 6869-6884, (2012)

[5]

Pallegedara A., Matsuda Y., Egashira N., Sugi T., Goto S., Experimental evaluation of teleoperation system with force-free control and visual servo control by human operator perception, Artif Life Robot, 17, 3-4, pp. 388-394, (2013)

[6]

Matsuda Y., Tsukamoto K., Matsumoto T., Goto S., Sugi T., Egashira N., Remote operation system of robot arm with visual servo mechanism by target selection, Int J Innov Comput Inf Control, 10, 4, pp. 1381-1390, (2014)

[7]

Matsuda Y., Sugi T., Goto S., Egashira N., Teleoperation of robot arm with position measurement via angle-pixel characteristic and visual supporting function, Artif Life Robot, 21, 4, pp. 478-485, (2016)

[8]

Goto S., Forcefree control for flexible motion of industrial articulated robot arm. Industrial robotics: theory, modelling and control, Chapter 30, pp. 813-840, (2006)

[9]

Salgado I., Cruz-Ortiz D., Camacho O., Chairez I., Output feedback control of a skid-steered mobile robot based on the super-twisting algorithm, Control Eng Pract, 58, pp. 193-203, (2017)

[10]

Li W., Liu Z., Gao H., Zhang X., Tavakoli M., Stable kinematic teleoperation of wheeled mobile robots with slippage using time-domain passivity control, Mechatronics, 39, pp. 196-203, (2016)

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