Inconsistencies between mental fatigue measures under compensatory control theories
Identificadores
URI: http://hdl.handle.net/10481/63674Metadatos
Mostrar el registro completo del ítemMateria
TOT: Time On Task ATCo: Air Traffic Controller
Fecha
2020-07Patrocinador
Spanish Ministry of Industry PI-1461/2015Resumen
Mental fatigue has traditionally been defined as a condition of reduced
cognitive efficiency and performance, accompanied by a subjective feeling of
fatigue. Even though we could expect to find associations between the three
defining characteristic of mental fatigue (performance impairment,
physiological deactivation and subjective fatigue), research has shown that
the emergence of inconsistencies between measures is more frequent than one
might expect: people proved capable of maintaining adequate performance
levels even after having declared themselves fatigued. This could be
explained under the compensatory control mechanism models, which state
that humans are able to provide additional resources under demanding
conditions, but only at the expense of psychophysiological cost and subjective
fatigue. We tested this explanation by manipulating task complexity and time
performing a simulated air-traffic control task. We collected
psychophysiological, performance and subjective data. A decrease in pupil
size was seen in the low-aircraft-density condition, while pupil size remained
constant in the high-aircraft-density condition. Participants’ task performance
was optimal in both conditions, though they showed an increase in subjective
feelings of fatigue, especially in the high-complexity task condition. Thus,
complexity seemed to trigger compensatory mechanisms, which reallocated
extra resources that physiologically activated participants in order to deal with
a higher complexity task, whereas subjective fatigue could be acting as a
signal to the organism of impending resource depletion. Our findings support
compensatory control theories and offer an explanation of inconsistencies
between fatigue measures. Further research on compensatory mechanisms is
needed to enable better management of fatigue effects to prevent work-related
accidents.