Gal A. Kaminka: Publications

Sorted by DateClassified by Publication TypeClassified by TopicGrouped by Student (current)Grouped by Former Students

Color Stereoscopic Images Require Only One Color Image

Yael Termin, Gal A. Kaminka, Sarit Semo, and Ari Z. Zivotofsky. Color Stereoscopic Images Require Only One Color Image. Optical Engineering, 46(8):087003–1--087003-11, 2007.

Download

[PDF]1.3MB  

Abstract

Utilizing remote color stereoscopic scenes typically requires the acquisition, transmission, and processing of two color images. However, the amount of information transmitted and processed is large, compared to either monocular images, or monochrome stereo images. Existing approaches to addressing this challenge focus on compression and optimization. This paper introduces an innovative complementary approach to the presentation of a color stereoscopic scene, specialized for human perception. It relies on the hypothesis that a stereo pair consisting of one monochromatic image and one color image (MIX stereo pair) will be perceived by a human observer as a 3D color scene. Taking advantage of color redundancy, this presentation of a monochromatic-color pair allows for a drastic reduction in the required bandwidth, even before any compression method is employed. Herein we describe the controlled psychophysical experiments of up to 15 subjects. These experiments tested both color and depth perception using various combinations of color and monochromatic images. The results show that subjects perceived 3D color images even when they were presented with only one color image in a stereoscopic pair. This confirms the hypothesis, and validates the new approach.

Additional Information

Full details also on the Optical Engineering page. This blog had nice things to say about this work (skip to the last 2--3 paragraphs).

BibTeX

@Article{optical07, 
author = {Yael Termin and Gal A. Kaminka and Sarit Semo and Ari Z. Zivotofsky}, 
title = {Color Stereoscopic Images Require Only One Color Image}, 
journal = {Optical Engineering}, 
year = {2007}, 
OPTkey = {}, 
volume = {46},  
number = {8}, 
pages = {087003-1--087003-11},  
OPTmonth = {August}, 
note = {}, 
OPTannote = {}, 
abstract = {Utilizing remote color stereoscopic scenes typically 
            requires the acquisition, transmission, and processing of 
            two color images.  However, the amount of information 
            transmitted and processed is large, compared to either 
            monocular images, or monochrome stereo images. Existing 
            approaches to addressing this challenge focus on 
            compression and optimization. This paper introduces an 
            innovative complementary approach to the presentation of a 
            color stereoscopic scene, specialized for human 
            perception. It relies on the hypothesis that a stereo pair 
            consisting of one monochromatic image and one color image 
            (MIX stereo pair) will be perceived by a human observer as 
            a 3D color scene. Taking advantage of color redundancy, 
            this presentation of a monochromatic-color pair allows for 
            a drastic reduction in the required bandwidth, even before 
            any compression method is employed. Herein we describe the 
            controlled psychophysical experiments of up to 15 
            subjects. These experiments tested both color and depth 
            perception using various combinations of color and 
            monochromatic images. The results show that subjects 
            perceived 3D color images even when they were presented 
            with only one color image in a stereoscopic pair.  This 
            confirms the hypothesis, and validates the new approach.}, 
wwwnote = {}, 
} 

Generated by bib2html.pl (written by Patrick Riley ) on Fri Aug 30, 2024 17:29:51