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Single operator, multiple robots: an eye movement based theoretic model of operator situation awareness

Published: 02 March 2010 Publication History

Abstract

For a single operator to effectively control multiple robots, operator situation awareness is a critical component of the human-robot system. There are three levels of situation awareness: perception, comprehension, and projection into the future [1]. We focus on the perception level to develop a theoretic model of the perceptual-cognitive processes underlying situation awareness. Eye movement measures were developed as indicators of cognitive processing and these measures were used to account for operator situation awareness on a supervisory control task. The eye movement based model emphasizes the importance of visual scanning and attention allocation as the cognitive processes that lead to operator situation awareness and the model lays the groundwork for real-time prediction of operator situation awareness.

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  • (2016)Simulation-based environment for the eye-tracking control of tele-operated mobile robotsProceedings of the Modeling and Simulation of Complexity in Intelligent, Adaptive and Autonomous Systems 2016 (MSCIAAS 2016) and Space Simulation for Planetary Space Exploration (SPACE 2016)10.5555/2962664.2962668(1-7)Online publication date: 3-Apr-2016
  • (2016)The evaluation of military pilot's attention distributions on the flight deckProceedings of the International Conference on Human-Computer Interaction in Aerospace10.1145/2950112.2964588(1-6)Online publication date: 14-Sep-2016
  • (2014)The Investigation of Pilots' Eye Scan Patterns on the Flight Deck during an Air-to-Surface Task11th International Conference on Engineering Psychology and Cognitive Ergonomics - Volume 853210.1007/978-3-319-07515-0_33(325-334)Online publication date: 22-Jun-2014
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      cover image ACM Conferences
      HRI '10: Proceedings of the 5th ACM/IEEE international conference on Human-robot interaction
      March 2010
      400 pages
      ISBN:9781424448937

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      IEEE Press

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      Published: 02 March 2010

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      Author Tags

      1. eye tracking
      2. human-robot system
      3. situation awareness
      4. supervisory control

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      HRI '10 Paper Acceptance Rate 26 of 124 submissions, 21%;
      Overall Acceptance Rate 268 of 1,124 submissions, 24%

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      View all
      • (2016)Simulation-based environment for the eye-tracking control of tele-operated mobile robotsProceedings of the Modeling and Simulation of Complexity in Intelligent, Adaptive and Autonomous Systems 2016 (MSCIAAS 2016) and Space Simulation for Planetary Space Exploration (SPACE 2016)10.5555/2962664.2962668(1-7)Online publication date: 3-Apr-2016
      • (2016)The evaluation of military pilot's attention distributions on the flight deckProceedings of the International Conference on Human-Computer Interaction in Aerospace10.1145/2950112.2964588(1-6)Online publication date: 14-Sep-2016
      • (2014)The Investigation of Pilots' Eye Scan Patterns on the Flight Deck during an Air-to-Surface Task11th International Conference on Engineering Psychology and Cognitive Ergonomics - Volume 853210.1007/978-3-319-07515-0_33(325-334)Online publication date: 22-Jun-2014
      • (2013)Supervisory guide part ICHI '13 Extended Abstracts on Human Factors in Computing Systems10.1145/2468356.2468377(109-114)Online publication date: 27-Apr-2013
      • (2012)Hard lessons learnedProceedings of the 4th Workshop on Eye Gaze in Intelligent Human Machine Interaction10.1145/2401836.2401843(1-6)Online publication date: 26-Oct-2012

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