Your search keyword '"Huestegge L"' showing total 3 results

1. Oculomotor dominance in multitasking: Mechanisms of conflict resolution in cross-modal action

Author

Pieczykolan, A., primary and Huestegge, L., additional

Published

2014

2. Free-choice saccades and their underlying determinants: Explorations of high-level voluntary oculomotor control.

Author

Huestegge L, Herbort O, Gosch N, Kunde W, and Pieczykolan A

Subjects

Adolescent, Adult, Choice Behavior physiology, Eye Movements physiology, Female, Humans, Learning physiology, Male, Photic Stimulation, Psychomotor Performance physiology, Reaction Time physiology, Young Adult, Oculomotor Muscles physiology, Saccades physiology

Abstract

Models of eye-movement control distinguish between different control levels, ranging from automatic (bottom-up, stimulus-driven selection) and automatized (based on well-learned routines) to voluntary (top-down, goal-driven selection, e.g., based on instructions). However, one type of voluntary control has yet only been examined in the manual and not in the oculomotor domain, namely free-choice selection among arbitrary targets, that is, targets that are of equal interest from both a bottom-up and top-down processing perspective. Here, we ask which features of targets (identity- or location-related) are used to determine such oculomotor free-choice behavior. In two experiments, participants executed a saccade to one of four peripheral targets in three different choice conditions: unconstrained free choice, constrained free choice based on target identity (color), and constrained free choice based on target location. The analysis of choice frequencies revealed that unconstrained free-choice selection closely resembled constrained choice based on target location. The results suggest that free-choice oculomotor control is mainly guided by spatial (location-based) target characteristics. We explain these results by assuming that participants tend to avoid less parsimonious recoding of target-identity representations into spatial codes, the latter being a necessary prerequisite to configure oculomotor commands.

Published

2019

3. Out of the corner of the driver's eye: Peripheral processing of hazards in static traffic scenes.

Author

Huestegge L and Böckler A

Subjects

Adult, Female, Humans, Male, Young Adult, Accidents, Traffic prevention & control, Automobile Driving, Saccades physiology, Spatial Processing physiology, Visual Perception physiology

Abstract

Effective gaze control in traffic, based on peripheral visual information, is important to avoid hazards. Whereas previous hazard perception research mainly focused on skill-component development (e.g., orientation and hazard processing), little is known about the role and dynamics of peripheral vision in hazard perception. We analyzed eye movement data from a study in which participants scanned static traffic scenes including medium-level versus dangerous hazards and focused on characteristics of fixations prior to entering the hazard region. We found that initial saccade amplitudes into the hazard region were substantially longer for dangerous (vs. medium-level) hazards, irrespective of participants' driving expertise. An analysis of the temporal dynamics of this hazard-level dependent saccade targeting distance effect revealed that peripheral hazard-level processing occurred around 200-400 ms during the course of the fixation prior to entering the hazard region. An additional psychophysical hazard detection experiment, in which hazard eccentricity was manipulated, revealed better detection for dangerous (vs. medium-level) hazards in both central and peripheral vision. Furthermore, we observed a significant perceptual decline from center to periphery for medium (but not for highly) dangerous hazards. Overall, the results suggest that hazard processing is remarkably effective in peripheral vision and utilized to guide the eyes toward potential hazards.

Published

2016