This paper presents a shared-control interaction paradigm for haptic interface systems, with experimental data from two user studies. Shared control, evolved from its initial telerobotics applications, is adapted as a form of haptic assistance in that the haptic device contributes to execution of a dynamic manual target-hitting task via force commands from an automatic controller. Compared to haptic virtual environments, which merely display the physics of the virtual system, or to passive methods of haptic assistance for performance enhancement based on virtual fixtures, the shared-control approach offers a method for actively demonstrating desired motions during virtual environment interactions. The paper presents a thorough review of the literature related to haptic assistance. In addition, two experiments were conducted to independently verify the efficacy of the shared-control approach for performance enhancement and improved training effectiveness of the task. In the first experiment, shared control is found to be as effective as virtual fixtures for performance enhancement, with both methods resulting in significantly better performance in terms of time between target hits for the manual target-hitting task than sessions where subjects feel only the forces arising from the mass-spring-damper system dynamics. Since shared control is more general than virtual fixtures, this approach may be extremely beneficial for performance enhancement in virtual environments. In terms of training enhancement, shared control and virtual fixtures were no better than practice in an unassisted mode. For manual control tasks, such as the one described in this paper, shared control is beneficial for performance enhancement, but may not be viable for enhancing training effectiveness.
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e-mail: omalleym@rice.edu
e-mail: abhi@rice.edu
e-mail: mgen@rice.edu
e-mail: yvonneli@rice.edu
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March 2006
Technical Papers
Shared Control in Haptic Systems for Performance Enhancement and Training
Marcia K. O’Malley,
Marcia K. O’Malley
Mechanical Engineering and Materials Science,
e-mail: omalleym@rice.edu
Rice University
, Houston, TX 77005
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Abhishek Gupta,
Abhishek Gupta
Mechanical Engineering and Materials Science,
e-mail: abhi@rice.edu
Rice University
, Houston, TX 77005
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Matthew Gen,
Matthew Gen
Mechanical Engineering and Materials Science,
e-mail: mgen@rice.edu
Rice University
, Houston, TX 77005
Search for other works by this author on:
Yanfang Li
Yanfang Li
Mechanical Engineering and Materials Science,
e-mail: yvonneli@rice.edu
Rice University
, Houston, TX 77005
Search for other works by this author on:
Marcia K. O’Malley
Mechanical Engineering and Materials Science,
Rice University
, Houston, TX 77005e-mail: omalleym@rice.edu
Abhishek Gupta
Mechanical Engineering and Materials Science,
Rice University
, Houston, TX 77005e-mail: abhi@rice.edu
Matthew Gen
Mechanical Engineering and Materials Science,
Rice University
, Houston, TX 77005e-mail: mgen@rice.edu
Yanfang Li
Mechanical Engineering and Materials Science,
Rice University
, Houston, TX 77005e-mail: yvonneli@rice.edu
J. Dyn. Sys., Meas., Control. Mar 2006, 128(1): 75-85 (11 pages)
Published Online: November 30, 2005
Article history
Received:
April 2, 2005
Revised:
November 30, 2005
Citation
O’Malley, M. K., Gupta, A., Gen, M., and Li, Y. (November 30, 2005). "Shared Control in Haptic Systems for Performance Enhancement and Training." ASME. J. Dyn. Sys., Meas., Control. March 2006; 128(1): 75–85. https://doi.org/10.1115/1.2168160
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