A multiresolution framework for stereoscopic image sequence compression

Stereoscopic sequence compression typically involves the exploitation of the spatial redundancy between the left and right streams to achieve higher compressions than are possible with the independent compression of the two streams. In this paper the psychophysical property of the human visual syste...

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Hauptverfasser:	Sethuraman, S., Siegel, M.W., Jordan, A.G.
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Sprache:	eng
Schlagworte:	Bit rate Humans Image coding Image resolution Image sequences MPEG standards Psychology Spatial resolution Streaming media Visual system
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creator	Sethuraman, S. Siegel, M.W. Jordan, A.G.
description	Stereoscopic sequence compression typically involves the exploitation of the spatial redundancy between the left and right streams to achieve higher compressions than are possible with the independent compression of the two streams. In this paper the psychophysical property of the human visual system, that only one high resolution image in a stereo image pair is sufficient for satisfactory depth perception, has been used to further reduce the bit rates. Thus, one of the streams is independently coded along the lines of the MPEG standards, while the other stream is estimated at a lower resolution from this stream. A multiresolution framework has been adopted to facilitate such an estimation of motion and disparity vectors at different resolutions. Experimental results on typical sequences indicate that the additional stream can be compressed to about one-fifth of a highly compressed independently coded stream, without any significant loss in depth perception or perceived image quality.< >
doi_str_mv	10.1109/ICIP.1994.413592
format	Conference Proceeding
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In this paper the psychophysical property of the human visual system, that only one high resolution image in a stereo image pair is sufficient for satisfactory depth perception, has been used to further reduce the bit rates. Thus, one of the streams is independently coded along the lines of the MPEG standards, while the other stream is estimated at a lower resolution from this stream. A multiresolution framework has been adopted to facilitate such an estimation of motion and disparity vectors at different resolutions. Experimental results on typical sequences indicate that the additional stream can be compressed to about one-fifth of a highly compressed independently coded stream, without any significant loss in depth perception or perceived image quality.< ></abstract><pub>IEEE Comput. Soc. Press</pub><doi>10.1109/ICIP.1994.413592</doi></addata></record>
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subjects	Bit rate Humans Image coding Image resolution Image sequences MPEG standards Psychology Spatial resolution Streaming media Visual system
title	A multiresolution framework for stereoscopic image sequence compression
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