OPERABILITY OF A CONTROL METHOD FOR GRASPING SOFT OBJECTS IN A CONSTRUCTION TELEOPERATION ROBOT TESTED IN VIRTUAL REALITY

Authors

  • Lingtao Huang Mechanical and Civil Engineering Division, Gifu University, Gifu, Japan
  • Takuya Kawamura Department of Human and Information Systems, Gifu University, Gifu, Japan
  • Hironao Yamada Department of Human and Information Systems, Gifu University, Gifu, Japan

Keywords:

construction machinery, robot, hydraulic actuator, master-slave control, force feedback, virtual reality

Abstract

The purpose of this research was to evaluate an operation system that includes a control method of feedback previously proposed by our lab, in a virtual reality setting. Specifically, we examined a master-slave control system for a teleoperation construction robot. The master comprises two joysticks adopted to manipulate objects from a remote location, and the slave corresponds to an excavator with four degrees of freedom, regarded as a construction robot. The authors previously proposed a control method to provide an operator with a realistic sensation of grasping by introducing a noticeable reaction torque to the joystick’s handling and a variable master torque gain according to an object’s hardness when the robot moves slowly to grasp a soft object. In this research, an operability test was conducted when the control method was introduced to actual tasks, including grasping, conveying and classifying tasks using concrete blocks and sponge foam blocks. Measurement of mental strain using NASA-TLX and measurement of physiology strain using heart rate variability were recommended as evaluation methods in addition to the use of task efficiency and danger indices. According to statistical analysis of the experimental results, we verified that the control method used in the operation system could contribute to improving efficiency and safety during teleoperation work as well as alleviating the operator’s mental fatigue and stress.

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Author Biographies

Lingtao Huang, Mechanical and Civil Engineering Division, Gifu University, Gifu, Japan

Lingtao Huang He received his BS and MS Mechanical Engineering from Jilin University, China, in 2003 and 2008, respectively. At present he is a Ph.D. student at Gifu University, Japan. His research interests include control system, fluid power system and virtual reality.

Takuya Kawamura, Department of Human and Information Systems, Gifu University, Gifu, Japan

Kawamura Takuya He graduated from Nagoya University, Japan in 1999 and received the Ph.D. degree from Nagoya University in 2002. He is currently an assistant professor with the Department of Human and Information Systems, Gifu University since 2007. His research interests include mechatronics, robotics and psychophysics. He is a member of Japan Society of Mechanical Engineers (JSME) and The Robotics Society of Japan (RSJ).

Hironao Yamada, Department of Human and Information Systems, Gifu University, Gifu, Japan

Hironao Yamada He received the Ph.D. degree from Nagoya University in 1991. He worked as research associate at Nagoya University and also became Visiting Research Fellow at Aachen Institute of Technology, German from 1992 to 1993. He is currently a professor with the Department of Human and Information Systems, Gifu University since 1994. His research interests include virtual reality, human interface, vision system and fluid power system. He is a member of Japan Society of Mechanical Engineer (JSME), Japan Fluid Power System (JFPS), Society of Instrument and Control Engineers (SICE), and The Virtual Reality Society of Japan(VRSJ).

References

Hart, S. G. and Staveland, L. E. 1988. Development

of NASA-TLX (Task Load Index): results of empirical

and theoretical research. In P.A. Hancock

and N. Meshkati (eds), Human Mental Workload

(Amsterdam: North-H, pp. 139 - 183.

Hung, N. V. Q., Narikiyo, T. and Tuan, H. D. 2003.

Nonlinear adaptive control of master-slave system

in teleoperation, Control Engineering Pracitice,

Vol. 11, No. 1, pp. 1 - 10.

Kato, H., Yamada, H. and Muto, T. 2002. Master-Slave

Control for a Tele-Operation System of Construction

Robot (Improved method of Control Compared with a

Variable-Gain Symmetric-Position). Proceedings of

the 5th JFPS International Symposium on Fluid

Power, Vol. 2, pp. 513 - 518.

Kato, H., Yamada, H. and Muto, T. 2003. Master-

Slave Control for a Tele-Operation System for a

Construction Robot (2nd Report: Expansion of Force

Feedback to Articulated Arm by Gravity Compensation).

Transactions of the Japan Fluid Power

System Society, Vol. 34, No. 4, pp. 85 - 91.

Lingtao, H., Kawamura, T. and Yamada, H. 2012.

Master-Slave Control Method with Force Feedback

for Grasping Soft Objects using a Teleoperation

Construction Robot, International Journal of Fluid

Power, Vol. 13, No. 2, pp. 41 - 49.

Nygren, T. E. 1991. Psychometric properties of subjective

workload measurement techniques: Implication

for their use in the assessment of perceived

mental workload, Human Factors, Vol. 33, No. 1,

pp.17 - 33.

Paulo, S. G., Henriques, André A., Pelegrne, Ana A.

Nogueira and Mônica M.Borghi. 2010. Application

of subepithelial connective tissue graft with or

without enamel matrix derivative for root coverage:

a split-mouth randomized research, Journal of Oral

Science, Vol. 52 No.3, pp. 463 - 471.

Reid, G. B. and Nygren, T. E. 1988. The subjective

workload assessment technique: a procedure for

measuring mental workload. In P.A. Hancock and

N. Meshkati (eds), Human Mental Workload (Amsterdam:

North-H), pp. 185 - 218.

Toichia, M., Sugiura, T., Muraia, T. and Sengoku.

A. 1997. A new method of assessing cardiac autonomic

function and its comparison with spectral

analysis and coefficient of variation of R–R interval.

Journal of the Autonomic Nervous System, Vol.

No. 1-2, pp. 79 - 84.

Yamada, H., Kato, H. and Muto, T. 2003. Master-

Slave Control for Construction Robot Teleoperation.

Journal of Robotics and Mechatronics, Vol.

, No. 1, pp. 35 - 42.

Yamada, H., Ming-de, G. and Dingxuan, Z. 2007.

A Master-Slave Control for a Tele-Operation system

for a Construction Robot (Application of a Velocity

Control Method with a Force Feedback

Model. Journal of Robotics and Mechatronics, Vol.

No. 1, pp. 60 - 67.

Yamada, H., Takeichi, K. and Muto, T. 2000. Master-

slave Control for Teleoperated Construction

Robotic System. Bulletin (C) of Japan Society of

Mechanical Engineer, 66 - 651, pp. 3664 - 3671.

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Published

2018-12-30

How to Cite

Huang, L., Kawamura, T., & Yamada, H. (2018). OPERABILITY OF A CONTROL METHOD FOR GRASPING SOFT OBJECTS IN A CONSTRUCTION TELEOPERATION ROBOT TESTED IN VIRTUAL REALITY. International Journal of Fluid Power, 13(3), 39–48. Retrieved from https://journals.riverpublishers.com/index.php/IJFP/article/view/231

Issue

2012: Vol 13 Iss 3

Section

Original Article