The effects of object size on spatial orientation: an eye movement study

Tianqi Yang; Yang He; Lin Wu; Hui Wang; Xiuchao Wang; Yahong Li; Yaning Guo; Shengjun Wu; Xufeng Liu

doi:10.3389/fnins.2023.1197618

The effects of object size on spatial orientation: an eye movement study

Front Neurosci. 2023 Nov 10:17:1197618. doi: 10.3389/fnins.2023.1197618. eCollection 2023.

Authors

Tianqi Yang^#¹, Yang He^#¹, Lin Wu¹, Hui Wang¹, Xiuchao Wang¹, Yahong Li², Yaning Guo¹, Shengjun Wu¹, Xufeng Liu¹

Affiliations

¹ Department of Military Medical Psychology, Air Force Medical University, Xi'an, China.
² Central Theater Command Air Force Hospital of PLA, Datong, China.

^# Contributed equally.

Abstract

Introduction: The processing of visual information in the human brain is divided into two streams, namely, the dorsal and ventral streams, object identification is related to the ventral stream and motion processing is related to the dorsal stream. Object identification is interconnected with motion processing, object size was found to affect the information processing of motion characteristics in uniform linear motion. However, whether the object size affects the spatial orientation is still unknown.

Methods: Thirty-eight college students were recruited to participate in an experiment based on the spatial visualization dynamic test. Eyelink 1,000 Plus was used to collect eye movement data. The final direction difference (the difference between the final moving direction of the target and the final direction of the moving target pointing to the destination point), rotation angle (the rotation angle of the knob from the start of the target movement to the moment of key pressing) and eye movement indices under conditions of different object sizes and motion velocities were compared.

Results: The final direction difference and rotation angle under the condition of a 2.29°-diameter moving target and a 0.76°-diameter destination point were significantly smaller than those under the other conditions (a 0.76°-diameter moving target and a 0.76°-diameter destination point; a 0.76°-diameter moving target and a 2.29°-diameter destination point). The average pupil size under the condition of a 2.29°-diameter moving target and a 0.76°-diameter destination point was significantly larger than the average pupil size under other conditions (a 0.76°-diameter moving target and a 0.76°-diameter destination point; a 0.76°-diameter moving target and a 2.29°-diameter destination point).

Discussion: A relatively large moving target can resist the landmark attraction effect in spatial orientation, and the influence of object size on spatial orientation may originate from differences in cognitive resource consumption. The present study enriches the interaction theory of the processing of object characteristics and motion characteristics and provides new ideas for the application of eye movement technology in the examination of spatial orientation ability.

Keywords: cognitive load; cognitive penetrability; eye movement; object size; spatial orientation.

Grants and funding

This study was funded by Air Force Medical University (AKJWS221J001-02, BKJ19J021, BKJ21J013, KJ2022A000415, and 224-CXCY-M113-07-01-01).