Analysis of human-in-the-loop tele-operated maintenance inspection tasks using VR

Analysis of human-in-the-loop tele-operated maintenance inspection tasks using VR

► Execution of tele-operated inspection tasks for ITER maintenance was analyzed. ► Human factors experiments using Virtual Reality showed to be a valuable approach. ► A large variation in time performance and number of collisions was found. ► Results indicate significant room for improvement for tel...

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Veröffentlicht in:Fusion engineering and design 2013-10, Vol.88 (9-10), p.2164-2167
Hauptverfasser: Boessenkool, H., Abbink, D.A., Heemskerk, C.J.M., Steinbuch, M., de Baar, M.R., Wildenbeest, J.G.W., Ronden, D., Koning, J.F.
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Sprache:eng
Schlagworte:
Degrees of freedom
Design engineering
Devices
Feedback
Haptics
Human factors experiment
Inspection
ITER
Maintenance
Operators
Remote handling
Remote maintenance
Task performance
Tasks
Tele-manipulation
Visual
Visual inspection
Workload
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container_end_page 2167
container_issue 9-10
container_start_page 2164
container_title Fusion engineering and design
container_volume 88
creator Boessenkool, H.
Abbink, D.A.
Heemskerk, C.J.M.
Steinbuch, M.
de Baar, M.R.
Wildenbeest, J.G.W.
Ronden, D.
Koning, J.F.
description ► Execution of tele-operated inspection tasks for ITER maintenance was analyzed. ► Human factors experiments using Virtual Reality showed to be a valuable approach. ► A large variation in time performance and number of collisions was found. ► Results indicate significant room for improvement for teleoperated free space tasks. ► A promising solution is haptic shared control: assist operator with guiding forces. One of the challenges in future fusion plants such as ITER is the remote maintenance of the plant. Foreseen human-in-the-loop tele-operation is characterized by limited visual and haptic feedback from the environment, which results in degraded task performance and increased operator workload. For improved tele-operated task performance it is required to get insight in the expected tasks and problems during maintenance at ITER. By means of an exploratory human factor experiment, this paper analyses problems and bottlenecks during the execution of foreseen tele-operated maintenance at ITER, identifying most promising areas of improvement. The focus of this paper is on free space (sub)tasks where contact with the environment needs to be avoided. A group of 5 subjects was asked to carry-out an ITER related free space task (visual inspection), using a six degree of freedom master device connected to a simulated hot cell environment. The results show large variation in time performance between subjects and an increasing number of collisions for more difficult tasks, indicating room for improvement for free space (sub)tasks. The results will be used in future research on the haptic guidance strategies in the ITER Remote Handling framework.
doi_str_mv 10.1016/j.fusengdes.2013.02.064
format Article
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One of the challenges in future fusion plants such as ITER is the remote maintenance of the plant. Foreseen human-in-the-loop tele-operation is characterized by limited visual and haptic feedback from the environment, which results in degraded task performance and increased operator workload. For improved tele-operated task performance it is required to get insight in the expected tasks and problems during maintenance at ITER. By means of an exploratory human factor experiment, this paper analyses problems and bottlenecks during the execution of foreseen tele-operated maintenance at ITER, identifying most promising areas of improvement. The focus of this paper is on free space (sub)tasks where contact with the environment needs to be avoided. A group of 5 subjects was asked to carry-out an ITER related free space task (visual inspection), using a six degree of freedom master device connected to a simulated hot cell environment. 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One of the challenges in future fusion plants such as ITER is the remote maintenance of the plant. Foreseen human-in-the-loop tele-operation is characterized by limited visual and haptic feedback from the environment, which results in degraded task performance and increased operator workload. For improved tele-operated task performance it is required to get insight in the expected tasks and problems during maintenance at ITER. By means of an exploratory human factor experiment, this paper analyses problems and bottlenecks during the execution of foreseen tele-operated maintenance at ITER, identifying most promising areas of improvement. The focus of this paper is on free space (sub)tasks where contact with the environment needs to be avoided. A group of 5 subjects was asked to carry-out an ITER related free space task (visual inspection), using a six degree of freedom master device connected to a simulated hot cell environment. The results show large variation in time performance between subjects and an increasing number of collisions for more difficult tasks, indicating room for improvement for free space (sub)tasks. The results will be used in future research on the haptic guidance strategies in the ITER Remote Handling framework.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.fusengdes.2013.02.064</doi><tpages>4</tpages></addata></record>
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source Elsevier ScienceDirect Journals Complete
subjects Degrees of freedom
Design engineering
Devices
Feedback
Haptics
Human factors experiment
Inspection
ITER
Maintenance
Operators
Remote handling
Remote maintenance
Task performance
Tasks
Tele-manipulation
Visual
Visual inspection
Workload
title Analysis of human-in-the-loop tele-operated maintenance inspection tasks using VR
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