Accession Number : ADA119218

Title :   Physiological and Dual Task Assessment of Workload during Tracking and Simulated Flight.

Descriptive Note : Final rept.,

Corporate Author : ARIZONA STATE UNIV TEMPE DEPT OF PSYCHOLOGY

Personal Author(s) : Lindholm,Ernest ; Cheatham,Cary ; Buckland,George

PDF Url : ADA119218

Report Date : Jan 1981

Pagination or Media Count : 78

Abstract : A visuomotor task of moderate complexity (tracking) and one of high complexity (simulated aircraft carrier landing) were performed alone, then in combination with a tone discrimination task at two levels of difficulty in usual dual task fashion. Measures of autonomic nervous system activation (heart rate, skin conductance) and central nervous system information processing (event related potentials) were quantified continuously during performance of all tasks. The dual task results were typical, given that most subjects treated the tone discrimination task as 'secondary' (low priority): tone discrimination performance degraded when the tone mask was combined with the tracking task and degraded even more when the tone task was combined with the carrier landing task. While dual task methodology adequately described gross changes in workload, the physiological data permitted much more detailed interpretations and descriptions of training effects (practice), tone mask information processing, individual differences, and viscuomotor task control parameters than was possible by analysis of secondary task performance. It is concluded that the physiological method has distinct advantages over the dual task method, due mostly to the nonintrusive nature and the greater detail of results afforded by the former method. (Author)

Descriptors :   *Stress(Psychology), *Stress(Physiology), *Performance(Human), *Pilots, *Man machine systems, Tracking, Carrier landings, Audio tones, Auditory perception, Work measurement, Skills, Heart rate, Skin(Anatomy), Conductivity, Reaction time, Information processing, Flight simulation, Dual mode

Subject Categories : Psychology
      Stress Physiology
      Human Factors Engineering & Man Machine System

Distribution Statement : APPROVED FOR PUBLIC RELEASE