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NASA NTRS · Abstract
Methodology for Examining the Operator and the System Concurrently: Pilot Interaction with Automation
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.
Complex system description is problematic when considering operator task activities interacting with system dynamics. Engineering languages have matured sufficiently to allow machine system description at various levels of depth and breadth but without operator synergy. Concurrently, Task Analysis methods have evolved along diverse lines enabling a description of the operator in the system from various paradigms but not describing the system. A void exists when attempting to view the system and the operator in the same plane. We propose a methodology employing descriptive languages from different domains viewed in a single dimension. Finite Automata (FA) languages describe the machine system in the proposed approach. Operator task specifications, a form of task analysis output, examine the operator activities within the system. Operator task specifications were then selected for discrete task activities and overlaid on the system description to examine operator inputs and subsequently view system responses. Unexpected (surprise) and undesirable system behavior was expected to emerge from this analysis. In this paper we shall first describe the methodology and show how the two perspectives, machine model and operator task specifications are integrated. Following we describe the process of doing such analysis using an example from cockpit automation. The methodology was employed in the analysis of a new function that was added to an existing automatic flight control system. We begin by defining a flight scenario involving all aspects of pilot interaction with the new function. Then, we proceed to develop a basic model of the machine behavior, in the context of pilot actions. Finally we superimpose the operator task specification on the machine model and perform the analysis. The proposed methodology may have broad appeal to system designers and human factors specialists. A common language for engineers of diverse domains is a strong point of this approach. Systems engineers may not fully understand operational considerations and human limitations, and human factors specialists may not be exposed to the full extent of system behavior. We hope the proposed methodology is adopted by both disciplines and in the process each assimilates a common language to address potential shortcomings of either approach separately.
Authors
- Austin, David NASA Ames Research Center
- Degani, Asaf NASA Ames Research Center
- Heymann, Michael NASA Ames Research Center
- Moodi, Mike Boeing Commercial Airplane Co.
- Remington, Roger
Citation: Austin, David, Degani, Asaf, Heymann, Michael , et al. (2019). Methodology for Examining the Operator and the System Concurrently: Pilot Interaction with Automation. Ames Research Center. NASA NTRS ID 20020061375. https://ntrs.nasa.gov/citations/20020061375 ↗