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JRM Vol.12 No.6 pp. 628-639
doi: 10.20965/jrm.2000.p0628
(2000)

Paper:

Human-Integrated Supervisory Control of Uninhabited Combat Aerial Vehicles

S. Narayanan*, Heath A. Ruff*, Narasimha Rao Edala*, Jonathan A. Geist*, Kiran Kumar Patchigolla*, Mark Draper** and Mike Haass**

*Department of Biomedical, Industrial & Human Factors Engineering, Wright State University, 207 Russ Engimeering Center, 3640 Colonel Glenn Hwy. Dayton, OH 45435-0001, USA

**US Air Force Research Laboratory Human Effectiveness Directorate/Crew System Interface Division, WPAFB, OH 45433, USA

Received:
August 30, 2000
Accepted:
October 11, 2000
Published:
December 20, 2000
Keywords:
Semiosis, Supervisory control, Unmanned vehicles, Modeling
Abstract
Uninhabited aerial vehicles are aircraft without the onboard presence of pilot or aircrew. Even though the human is removed from the direct control of the aircraft, the human is typically involved in the process as a supervisor in a multiple task telerobotics control system. The supervisor must receive the appropriate information for efficient decision making and input the information required to augment the autonomous control of the vehicle as necessary. This article presents an approach that applies human operator modeling methods to perform semiotic analysis and identifies the content and form of the information required for effective supervisory control. This paper also outlines a computational modeling and simulation architecture that supports concurrent multi-user connectivity and reconfigurable user interfaces. The potential utilization of this architecture to systematically evaluate interface concepts and the role of automation in these systems is also described. Finally, an empirical evaluation is described that benchmarks the effectiveness of the architecture.Human-Integrated Supervisory Control of Uninhabited Combat Aerial Vehicles.
Cite this article as:
S. Narayanan, H. Ruff, N. Edala, J. Geist, K. Patchigolla, M. Draper, and M. Haass, “Human-Integrated Supervisory Control of Uninhabited Combat Aerial Vehicles,” J. Robot. Mechatron., Vol.12 No.6, pp. 628-639, 2000.
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