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Human performance index - a generic performance indicator

journal contribution
posted on 2014-06-12, 09:11 authored by Tussanai Parthornratt, Robert M. Parkin, Michael R. Jackson
Human skill evaluation or human skill quantification in the original definition of a human adaptive mechatronics system is the main concern of this paper. However, a deficiency in terms of consistency and subjectivity makes human skill not fully indicative of actual human performance. That is, the term human skill can mean repeatability, adaptability, or learning capability depending on the aspects and systems of interest. This paper proposes a human performance index (HPI) concept to focus on human performance instead. The main contributions are the quantification of speed-accuracy characteristics based on Fitts' classical speed-accuracy trade-off and the determination of human control strategy involved in completing a task. The experiment in this paper was conducted on a computer-based simple tracking system by using a computer mouse to follow a set of random circles on a display. Human operators were told to complete the task as quickly as possible. HPI values were then calculated with and without weightings on speed and accuracy criteria. Different human performance values reflect how human operators accomplish the same task under the same working conditions. These control strategies are associated with a degree of emphasis on the speed and accuracy characteristics of the operators' control actions. © Authors 2011.

History

School

  • Mechanical, Electrical and Manufacturing Engineering

Published in

Proceedings of the Institution of Mechanical Engineers. Part I: Journal of Systems and Control Engineering

Volume

225

Issue

6

Pages

721 - 734

Citation

PARTHORNRATT, T., PARKIN, R.M. and JACKSON, M.R., 2011. Human performance index - a generic performance indicator. Proceedings of the Institution of Mechanical Engineers. Part I: Journal of Systems and Control Engineering, 225 (6), pp.721-734.

Publisher

Sage (© IMechE)

Version

  • VoR (Version of Record)

Publication date

2011

Notes

This article is closed access.

ISSN

0959-6518

eISSN

2041-3041

Language

  • en