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NASA NTRS · Abstract

Modes in Supervisory Control Systems: Structure and Transitions

Published 2019-07-17 From Ames Research Center 3 authors

Attribution

This is the abstract and citation. Full text lives at NASA NTRS — we link out rather than host. All credit to the authors and Ames Research Center.

Abstract

Verbatim from NASA NTRS. Not paraphrased, not summarized.

Mode confusion is becoming a major drawback in operator interaction with systems that allow for multiple levels of automation. This drawback has manifested itself in several mode related accidents and incidents in commercial aviation, military control systems, as well as high technology medical systems. In the domain of commercial aviation, there have been four recent airline accidents, all involving highly automated aircraft, in which mode related problems were present. Mode problems, we argue, stem from three principal factors: (1) mis-identification of the current mode, (2) difficulty in apprehending current mode behavior; and (3) difficulty in predicting the consequences of the next mode transition. This combination of factors may lead to mode confusion and possibly unwanted results. We define in this paper a mode as the system's manner of behavior. Any given system or machine, may have several ways of behaving. A controller, either human or machine, provides the input that triggers the transition from one mode of behavior to another. At any point in time, a machine may be in one mode or another modes are mutually exclusive. Complex systems are typically comprised of several subsystems, or components, each one with its own set of modes. Therefore, the status of the system at any point in time can be described as a vector of all the active modes.

Authors

  • Degani, Asaf San Jose State Univ.
  • Kirlik, Alex Georgia Inst. of Tech.
  • Shafto, Michael G.

Citation: Degani, Asaf, Kirlik, Alex, Shafto, Michael G. (2019). Modes in Supervisory Control Systems: Structure and Transitions. Ames Research Center. NASA NTRS ID 20020022501. https://ntrs.nasa.gov/citations/20020022501 ↗