Statistical quantification of the effects of viewing distance on texture perception

Liang Li; Akira Asano; Chie Muraki Asano; Katsunori Okajima

doi:10.1364/JOSAA.30.001394

Journal of the Optical Society of America A
Vol. 30,
Issue 7,
pp. 1394-1403
(2013)
•https://doi.org/10.1364/JOSAA.30.001394

Statistical quantification of the effects of viewing distance on texture perception

Liang Li, Akira Asano, Chie Muraki Asano, and Katsunori Okajima

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Liang Li, Akira Asano, Chie Muraki Asano, and Katsunori Okajima, "Statistical quantification of the effects of viewing distance on texture perception," J. Opt. Soc. Am. A 30, 1394-1403 (2013)

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Table of Contents Category
- Vision, Color, and Visual Optics
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The topics in this list come from the Optics and Photonics Topics applied to this article.

About this Article
History
- Original Manuscript: October 22, 2012
- Revised Manuscript: April 26, 2013
- Manuscript Accepted: June 2, 2013
- Published: June 26, 2013
Virtual Issues
Virtual Journal for Biomedical Optics Vol. 8, Iss. 8

Abstract

In general, viewers are more attracted to local features in images at a shorter viewing distance and to global features in images at a longer viewing distance. However, numerical analysis of the effect of viewing distance on human texture perception and how the perception of global and local changes under certain conditions are still undetermined. In this paper, we present statistical prediction of the relationship between the domination ratio of global and local features and the viewing distances under the control of several factors, using the logistic regression model. We synthesized textures by separately controlling global and local textural features using a texture model based on mathematical morphology, namely the primitive, grain, and point configuration texture model. Visual sensory tests were carried out on 80 subjects during two sets of experiments. The collected data were statistically analyzed using logistic regression and Akaike information criteria. Besides the main factor of viewing distance, the factors including gender, changing the order of viewing positions, and prior knowledge were also shown quantitatively to have significant influence on human texture perception. Our results showed that (1) local features of a texture were more attractive to females than males, (2) the first impression might have affected subsequent decisions in texture perception, and (3) subjects who had prior knowledge (supervised) were more sensitive to the changes in global and local dominance. (4) Regarding the interactions of the factors, prior knowledge reduced the effects of individual differences and perception condition differences on human texture perception. This study is dedicated to the construction of numerical relationships between viewing distance and human texture perception as well as to cognitive investigation of biases in global and local perceptions.

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Equations (14)

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	1	2	3	4	5	6	7	8
Maximum	1.5	1.5	1.5	1.5	1.5	1.5	1.5	1.5
Minimum	0.8	0.8	0.8	0.8	0.8	0.8	0.8	0.8

Position	$0.5 d$	$1 d$	$1.5 d$	$2 d$	$2.5 d$	$3 d$	$3.5 d$	$4 d$	$4.5 d$	$5 d$
Distance	28.65	57.30	85.95	114.60	143.25	171.90	200.55	229.20	257.85	286.50
Scene 1	68.75	34.38	22.92	17.19	13.75	11.46	9.82	8.59	7.64	6.88
Scene 2	34.38	17.19	11.46	8.59	6.88	5.73	4.91	4.30	3.82	3.44

	Scene 1		Scene 2
	$β_{0}$	$β_{1}$	$β_{0}$	$β_{1}$
Far-to-near	$- 2.8529$	1.2930	$- 2.3441$	0.7953
Near-to-far	$- 3.0534$	1.0990	$- 3.5791$	0.9082
Unsupervised	$- 2.0219$	0.8752	$- 1.6352$	0.5201
Supervised	$- 4.2334$	1.6154	$- 5.2631$	1.4318
Male	$- 2.9972$	1.4033	$- 2.3370$	0.8020
Female	$- 3.0294$	1.0573	$- 3.6177$	0.9104
Total	$- 2.8846$	1.1609	$- 2.8149$	0.8123

	Scene 1		Scene 2
	$L$	AIC	$L$	AIC
Separate far-to-near and near-to-far	$4.2901 e - 162$	751.12	$8.7170 e - 183$	846.41
Separate unsupervised and supervised	$1.0112 e - 160$	744.80	$1.5602 e - 177$	822.22
Separate male and female	$2.1460 e - 159$	738.69	$1.6614 e - 182$	845.12
One curve	$1.5281 e - 165$	763.00	$3.3558 e - 189$	871.95

	$β_{0}$	$β_{1} (D)$	$β_{2} (G)$	$β_{3} (S)$	$β_{4} (C)$
Scene 1	$- 3.7567$	1.2414	0.9286	$- 0.3113$	0.7240
Scene 2	$- 3.8018$	0.9224	1.0010	$- 0.7628$	0.9715
	$p_{0}$	$p_{1} (D)$	$p_{2} (G)$	$p_{3} (S)$	$p_{4} (C)$
Scene 1	0.0000	0.0000	0.0000	0.0954	0.0001
Scene 2	0.0000	0.0000	0.0000	0.0000	0.0000

	Male				Female
	$β_{0}$	$β_{1} (D)$	$β_{2} (C)$	$β_{3} (S)$	$β_{0}^{'}$	$β_{1}^{'} (D)$	$β_{2}^{'} (C)$	$β_{3}^{'} (S)$
Scene 1	$- 3.0395$	1.5159	0.7349	$- 1.1389$	$- 3.6589$	1.0916	0.7492	0.3136
Scene 2	$- 2.7529$	0.9024	1.1155	$- 0.8925$	$- 3.8880$	0.9545	0.8103	$- 0.6181$
	$p_{0}$	$p_{1} (D)$	$p_{2} (C)$	$p_{3} (S)$	$p_{0}^{'}$	$p_{1}^{'} (D)$	$p_{2}^{'} (C)$	$p_{3}^{'} (S)$
Scene 1	0.0000	0.0000	0.0117	0.0001	0.0000	0.0000	0.0033	0.2122
Scene 2	0.0000	0.0000	0.0000	0.0003	0.0000	0.0000	0.0019	0.0168

Abstract

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Equations (14)

Journal of the Optical Society of America A