Title :
A Task-Specific Analysis of the Benefit of Haptic Shared Control During Telemanipulation
Author :
Boessenkool, H. ; Abbink, David A. ; Heemskerk, C.J.M. ; van der Helm, Frans C. T. ; Wildenbeest, Jeroen G. W.
Author_Institution :
Assoc. EURATOM-FOM, FOM Inst. DIFFER, Nieuwegein, Netherlands
fDate :
First Quarter 2013
Abstract :
Telemanipulation allows human to perform operations in a remote environment, but performance and required time of tasks is negatively influenced when (haptic) feedback is limited. Improvement of transparency (reflected forces) is an important focus in literature, but despite significant progress, it is still imperfect, with many unresolved issues. An alternative approach to improve teleoperated tasks is presented in this study: Offering haptic shared control in which the operator is assisted by guiding forces applied at the master device. It is hypothesized that continuous intuitive interaction between operator and support system will improve required time and accuracy with less control effort, even for imperfect transparency. An experimental study was performed in a hard-contact task environment. The subjects were aided by the designed shared control to perform a simple bolt-spanner task using a planar three degree of freedom (DOF) teleoperator. Haptic shared control was compared to normal operation for three levels of transparency. The experimental results showed that haptic shared control improves task performance, control effort and operator cognitive workload for the overall bolt-spanner task, for all three transparency levels. Analyses per subtask showed that free air movement (FAM) benefits most from shared control in terms of time performance, and also shows improved accuracy.
Keywords :
fasteners; haptic interfaces; manipulators; telerobotics; FAM; bolt-spanner task; continuous intuitive interaction; free air movement; haptic feedback; haptic shared control; hard-contact task environment; imperfect transparency; master device; operator cognitive workload; planar three degree of freedom teleoperator; remote operations; support system; task performance improvement; task-specific analysis; telemanipulation; teleoperated task improvement; three DOF teleoperator; transparency Improvement; Accuracy; Fasteners; Force; Haptic interfaces; Humans; Visualization; Teleoperation; haptic guidance; haptic shared control; human factors experiment; task performance; transparency;
Journal_Title :
Haptics, IEEE Transactions on
DOI :
10.1109/TOH.2012.22