The first two subjects ran the complete experiment (ie four TOT

The first two subjects ran the complete experiment (i.e. four TOT blocks) but reported extreme tiredness in relationship to using the bite bar for the entire experimental session. Thus, we reduced the session to two TOT blocks for the remaining two subjects. Consequently, data in Fig. 5 are from TOT 1 and TOT 2 only. We Selleckchem Enzalutamide ran the following sequences: Free-viewing high TC, free-viewing low TC, fixation high TC, fixation low TC. Fixation low TC, fixation high TC, free-viewing low TC, free-viewing low TC. Free-viewing low TC, free-viewing high TC. Fixation high TC, fixation

low TC. All other details were as in the main experiment. One subject presented a partial pupil occlusion (from her eyelid) in her right eye so we used data from her left eye only. All eye movement analyses for her data were as described above, except that no

binocular criterion was used for saccade detection. We determined the effects of mental fatigue (i.e. TOT and TC) on fixational and saccadic SB431542 mw eye movements during a simulated ATC task. The ATC task required the detection of airplane conflicts in low-complexity (eight planes) and high-complexity (16 planes) radar scenarios, in both free-viewing and fixation conditions. TOT was divided in four 30-min blocks: TOT 1, TOT 2, TOT 3 and TOT 4. Whereas TC analyses used data from the ATC task, TOT analyses used data from non-ATC tasks, i.e. control trials, including a fixation task and a guided saccade task, interleaved with the ATC trials; See ‘Materials and methods’ for details. To examine the effectiveness of the TOT and TC manipulations we analysed performance results (percentage of correct answers and their RTs) and responses to subjective questionnaires (NASA-TLX, SSS and Borg scores). The subjective results indicated Chlormezanone the successful manipulation of mental fatigue (i.e. TOT): participants

experienced higher levels of fatigue and sleepiness as the experiment progressed (Table 2). TOT did not affect the participants’ performance, however: percentage of correct answers and their RTs were stable across the four 30-min blocks (Table 2). Participants may have increased their efforts to maintain an acceptable level of performance to compensate for increasing fatigue (Hockey, 1997). Performance and subjective results, moreover, indicated the correct manipulation of TC: the high-complexity task led to slower RTs and more incorrect answers than the low-complexity task, as well as to higher scores in the subjective scale of TC (Table 3). Subjective ratings were similar for the fixation and free-viewing conditions, although the fixation condition resulted in faster but less accurate answers (Table 3). See Supporting Information for further details. Microsaccadic and saccadic peak velocity–magnitude relationship slopes decreased with increased TOT (Fig. 3; Table 4), indicating, for the first time, an effect of mental fatigue on microsaccadic dynamics.

Comments are closed.