Geometric Representations of Perceptual Phenomena

Name: Geometric Representations of Perceptual Phenomena
Brand: Taylor & Francis Inc
SKU: 9780805816860
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affine

Bilinear Models

Category=JMM

Category=JMR

Category=PBM

Category=PBP

Chromaticity Diagram

color

Color Constancy

Color Differences

color perception models

Color Space

constancy

Correlated Color Temperature

cortical representation

Cross-modal Similarity

cross-modality matching

data

empirical measurement in perceptual science

eq_bestseller

eq_isMigrated=1

eq_isMigrated=2

eq_nobargain

eq_non-fiction

eq_society-politics

euclidean

Euclidean Space

functions

Interpoint Distances

Large Color Differences

Linear Model

Miiller Lyer Figures

MOS

Munsell Chip Colors

Munsell Chips

NEI

proximity

Proximity Data

proximity judgment analysis

Psychophysical Function

reflectance

Reflectance Function

space

Spherical Angles

surface

Surface Reflectance Functions

time perception scaling

Vice Versa

visual psychophysics

Visual Space

Weber's Law

Product details

ISBN 9780805816860
Weight: 771g
Dimensions: 156 x 234mm
Publication Date: 01 Jul 1995
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Hardback

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Based on a conference held in honor of Professor Tarow Indow, this volume is organized into three major topics concerning the use of geometry in perception:
* space -- referring to attempts to represent the subjective space within which we locate ourselves and perceive objects to reside;
* color -- dealing with attempts to represent the structure of color percepts as revealed by various experimental procedures; and
* scaling -- focusing on the organization of various bodies of data -- in this case perceptual -- through scaling techniques, primarily multidimensional ones.

These topics provide a natural organization of the work in the field, as well as one that corresponds to the major aspects of Indow's contributions. This book's goal is to provide the reader with an overview of the issues in each of the areas, and to present current results from the laboratories of leading researchers in these areas.

R. Duncan Luce, Donald D. Hoffman, Michael D'Zmura, Geoffrey Iverson, Kimball A, Romney