Compensation for Blur Requires Increase in Field of View and Viewing Time

Spatial resolution is an important factor for human pattern recognition. In particular, low resolution (blur) is a defining characteristic of low vision. Here, we examined spatial (field of view) and temporal (stimulus duration) requirements for blurry object recognition. The spatial resolution of a...

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Published in:PloS one 2016-09, Vol.11 (9), p.e0162711
Main Authors: Kwon, MiYoung, Liu, Rong, Chien, Lillian
Format: Article
Language:English
Subjects:
Adolescent
Adult
Biology and Life Sciences
Biometry
Blindness
Diabetic retinopathy
Face recognition
Facial Recognition - physiology
Female
Field of view
Humans
Image manipulation
Influence
Integration
Male
Medicine and Health Sciences
Object recognition
Pattern recognition
Pattern Recognition, Visual - physiology
Photic Stimulation
Physical Sciences
Reading
Rehabilitation
Sensory Thresholds - physiology
Social Sciences
Spatial discrimination
Spatial Processing - physiology
Spatial resolution
Studies
Time Factors
Viewing
Vision
Vision, Low - physiopathology
Vision, Low - rehabilitation
Visual impairment
Visual Perception - physiology
Young Adult
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Liu, Rong
Chien, Lillian
description Spatial resolution is an important factor for human pattern recognition. In particular, low resolution (blur) is a defining characteristic of low vision. Here, we examined spatial (field of view) and temporal (stimulus duration) requirements for blurry object recognition. The spatial resolution of an image such as letter or face, was manipulated with a low-pass filter. In experiment 1, studying spatial requirement, observers viewed a fixed-size object through a window of varying sizes, which was repositioned until object identification (moving window paradigm). Field of view requirement, quantified as the number of "views" (window repositions) for correct recognition, was obtained for three blur levels, including no blur. In experiment 2, studying temporal requirement, we determined threshold viewing time, the stimulus duration yielding criterion recognition accuracy, at six blur levels, including no blur. For letter and face recognition, we found blur significantly increased the number of views, suggesting a larger field of view is required to recognize blurry objects. We also found blur significantly increased threshold viewing time, suggesting longer temporal integration is necessary to recognize blurry objects. The temporal integration reflects the tradeoff between stimulus intensity and time. While humans excel at recognizing blurry objects, our findings suggest compensating for blur requires increased field of view and viewing time. The need for larger spatial and longer temporal integration for recognizing blurry objects may further challenge object recognition in low vision. Thus, interactions between blur and field of view should be considered for developing low vision rehabilitation or assistive aids.
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subjects Adolescent
Adult
Biology and Life Sciences
Biometry
Blindness
Diabetic retinopathy
Face recognition
Facial Recognition - physiology
Female
Field of view
Humans
Image manipulation
Influence
Integration
Male
Medicine and Health Sciences
Object recognition
Pattern recognition
Pattern Recognition, Visual - physiology
Photic Stimulation
Physical Sciences
Reading
Rehabilitation
Sensory Thresholds - physiology
Social Sciences
Spatial discrimination
Spatial Processing - physiology
Spatial resolution
Studies
Time Factors
Viewing
Vision
Vision, Low - physiopathology
Vision, Low - rehabilitation
Visual impairment
Visual Perception - physiology
Young Adult
title Compensation for Blur Requires Increase in Field of View and Viewing Time
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