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Abstract

Luneburg's model for computation of the curvature K of visual two-dimensional space (horizontal visual surface) was tested with equidistant and parallel alleys in large open spaces. Forty-six subjects used stakes to produce 406 experimental alleys of variable sizes (from 5 × 1 to 240 m × 48 m). The results show that, contrary to results obtained under laboratory conditions with small alleys and light spots, the individual curvature of visual space does not have a negative constant value. K varies in the interval −1 to +1 in ninety computed settings: K ≥ 0 (N = 38); K < 0 (N = 52). Therefore the Lobachevskian geometry currently attributed to visual space ought to be replaced by a Riemannian geometry of variable curvature. Moreover K is an individual function dependant on the size of the alley (distance from the subject), and visual perception would be better understood as scale-dependent. Independently of Luneburg's model we have tested the constancy of the curvature hypothesis in experiments with horopters and visual triangles. The results obtained invalidate Luneburg's hypothesis also.

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References

Aleksandrov

A D

Kolmogorov

A N

Laurent'ev

M A

, 1959 Mathematics. Its Content, Methods and Meaning Vol II pp 80–97, Vol III p 173 (Cambridge Mass: MIT Press)

Blank

A A

, 1958

“Analysis of experiments in binocular space perception”

Journal of the Optical Society of America 48 911–925

Blank

A A

, 1959 “The Luneburg theory of binocular space perception” in Psychology: A Study of a Science Ed Koch

(New York: McGraw-Hill)

Blank

A A

, 1961

“Curvature of binocular visual space. An experiment”

Journal of the Optical Society of America 51 (3) 335–339

Boring

E C

, 1942 Sensation and Perception in the History of Experimental Psychology (New York: Appleton-Century-Crofts)

Gibson

, 1950 The Perception of the Visual World (Boston: Houghton Mifflin)

Hardy

L H

Rand

Rittler

M C

, 1951

“Investigations of visual space. The Blumenfeld alleys”

Archives of Ophthalmology 45 53–63

Hoffman

W C

, 1965

“The Lie algebra of visual perception”

Journal of Mathematical Psychology 3 85–98

Jonckheere

, 1967 “Géométrie et perception” in La Lecture de l'Expérience Eds Jonckheere

Mandelbrot

Piaget

(Paris: Presses Universitaires de France)

10.

Kienle

, 1963

“Geometriche Axioms, nicht-euklidische Abbildungsmodelle und Sehraum”

Optik 20 353–371

11.

Luneburg

R K

, 1947 Mathematical Analysis of Binocular Vision (Princeton NJ: Princeton University Press)

12.

Luneburg

R K

, 1948 “Metric methods in binocular visual perception” in Courant Anniversary Volume Eds Friedricks

K O

(New York: Interscience) pp215–240

13.

Ogle

K N

, 1950 Researches in Binocular Vision (Philadelphia: Saunders)

14.

Salvadori

M G

, 1952 Numerical Methods in Engineering (Englewood Cliffs NJ: Prentice-Hall)

15.

Zajaczkowska

, 1956a

“Experimental test of Luneburg's theory. Horopter and alley experiments”

Journal of the Optical Society of America 46 514–527

16.

Zajaczkowska

, 1956b

“Experimental determination of Luneburg's constants σ and K”

Quarterly Journal of Experimental Psychology 8 66–78

Riemannian Geometries of Variable Curvature in Visual Space: Visual Alleys,Horopters,and Triangles in Big Open Fields

Abstract

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