Directional Tuning Curves, Elementary Movement Detectors, and the Estimation of the Direction of Visual Movement

J.H. van Hateren

Directional Tuning Curves, Elementary Movement Detectors, and the Estimation of the Direction of Visual Movement

J.H. van Hateren

Intelligent Systems

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

Both the insect brain and the vertebrate retina detect visual movement with neurons having broad, cosine-shaped directional tuning curves oriented in either of two perpendicular directions. This article shows that this arrangement can lead to isotropic estimates of the direction of movement: for any direction the estimate is unbiased (no systematic errors) and equally accurate (constant random errors). A simple and robust computational scheme is presented that accounts for the directional tuning curves as measured in movement sensitive neurons in the blowfly. The scheme includes movement detectors of various spans, and predicts several phenomena of movement perception in man.

Original language	English
Pages (from-to)	603-614
Number of pages	12
Journal	Vision Research
Volume	30
Issue number	4
Publication status	Published - 1990

Keywords

Apparent motion
Gradient scheme
Reichardt correlator
Blowfly
Directional tuning curves
Visual movement detection

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title = "Directional Tuning Curves, Elementary Movement Detectors, and the Estimation of the Direction of Visual Movement",

abstract = "Both the insect brain and the vertebrate retina detect visual movement with neurons having broad, cosine-shaped directional tuning curves oriented in either of two perpendicular directions. This article shows that this arrangement can lead to isotropic estimates of the direction of movement: for any direction the estimate is unbiased (no systematic errors) and equally accurate (constant random errors). A simple and robust computational scheme is presented that accounts for the directional tuning curves as measured in movement sensitive neurons in the blowfly. The scheme includes movement detectors of various spans, and predicts several phenomena of movement perception in man.",

keywords = "Apparent motion, Gradient scheme, Reichardt correlator, Blowfly, Directional tuning curves, Visual movement detection",

author = "Hateren, \{J.H. van\}",

note = "Relation: http://www.rug.nl/informatica/organisatie/overorganisatie/iwi Rights: University of Groningen. Research Institute for Mathematics and Computing Science (IWI)",

year = "1990",

language = "English",

volume = "30",

pages = "603--614",

journal = "Vision Research",

issn = "0042-6989",

publisher = "PERGAMON-ELSEVIER SCIENCE LTD",

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TY - JOUR

T1 - Directional Tuning Curves, Elementary Movement Detectors, and the Estimation of the Direction of Visual Movement

AU - Hateren, J.H. van

N1 - Relation: http://www.rug.nl/informatica/organisatie/overorganisatie/iwi Rights: University of Groningen. Research Institute for Mathematics and Computing Science (IWI)

PY - 1990

Y1 - 1990

N2 - Both the insect brain and the vertebrate retina detect visual movement with neurons having broad, cosine-shaped directional tuning curves oriented in either of two perpendicular directions. This article shows that this arrangement can lead to isotropic estimates of the direction of movement: for any direction the estimate is unbiased (no systematic errors) and equally accurate (constant random errors). A simple and robust computational scheme is presented that accounts for the directional tuning curves as measured in movement sensitive neurons in the blowfly. The scheme includes movement detectors of various spans, and predicts several phenomena of movement perception in man.

AB - Both the insect brain and the vertebrate retina detect visual movement with neurons having broad, cosine-shaped directional tuning curves oriented in either of two perpendicular directions. This article shows that this arrangement can lead to isotropic estimates of the direction of movement: for any direction the estimate is unbiased (no systematic errors) and equally accurate (constant random errors). A simple and robust computational scheme is presented that accounts for the directional tuning curves as measured in movement sensitive neurons in the blowfly. The scheme includes movement detectors of various spans, and predicts several phenomena of movement perception in man.

KW - Apparent motion

KW - Gradient scheme

KW - Reichardt correlator

KW - Blowfly

KW - Directional tuning curves

KW - Visual movement detection

M3 - Article

SN - 0042-6989

VL - 30

SP - 603

EP - 614

JO - Vision Research

JF - Vision Research

IS - 4

ER -

Directional Tuning Curves, Elementary Movement Detectors, and the Estimation of the Direction of Visual Movement

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Keywords

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