Abstract The take-off phase of modern airliners is a relatively critical phase of flight. Thus, about 12% of all civil aviation accidents happen during take-off. In this paper we describe results of an experimental study of a prototype cockpit advisory take-off monitoring system designed to help pilots to make better and safer go/no-go decisions in the case of abnormal events during take-off. We describe, first, the basic aspects of the take-off task and, second, some of the information processing and risk assessment problems involved in making go/no-go decisions at high speeds during take-off. Third, we describe a prototype advisory take-off monitoring system (ATOMS), which as the result of a research project, has been designed to improve pilots' judgement of acceleration and deceleration during the take-off roll. Fourth, we report on results of an experimental study of this prototype system in a full-flight simulator — results that indicate that ATOMS has a promising potential to improve take-off safety. Finally, we discuss implications of the experimental results for systems support for pilots during take-off.
[1]
David C. Nagel,et al.
Human factors in aviation
,
1988
.
[2]
Herschel W. Leibowitz,et al.
The Human Senses in Flight
,
1988
.
[3]
Michael Sivak,et al.
Intelligent Vehicle Highway Systems: a call for user–centred design
,
1993
.
[4]
Marilyn Jager Adams,et al.
Situation Awareness and the Cognitive Management of Complex Systems
,
1995,
Hum. Factors.
[5]
Roy W Chamberlin.
REJECTED TAKEOFFS: CAUSES, PROBLEMS AND CONSEQUENCES.
,
1993
.
[6]
J. G. Hollands,et al.
Engineering Psychology and Human Performance
,
1984
.