Abstract
With the constant development of new communication technologies like, digital TV, teleconference, and the development of image analysis applications, there is a growing volume of data to manage. Compression techniques are required for the transmission and storage of these data. Dealing with original images would require the use of expansive high bandwidth communication devices and huge storage media. Image sequence compression can be achieved by means of interframe estimation that consists in retrieving redundant information relative to zones where there is little motion between two frames. This paper is an introduction to some motion estimation techniques like gradient techniques, pel-recursive, block-matching, and its application to image sequence compression. (Author) 17 refs.
Citation Formats
Cremy, C.
Inter frame motion estimation and its application to image sequence compression: an introduction; Estimacion del movimiento interframe y su aplicacion en la compresion de secuencias de imagenes: una introduccion.
Spain: N. p.,
1996.
Web.
Cremy, C.
Inter frame motion estimation and its application to image sequence compression: an introduction; Estimacion del movimiento interframe y su aplicacion en la compresion de secuencias de imagenes: una introduccion.
Spain.
Cremy, C.
1996.
"Inter frame motion estimation and its application to image sequence compression: an introduction; Estimacion del movimiento interframe y su aplicacion en la compresion de secuencias de imagenes: una introduccion."
Spain.
@misc{etde_20930134,
title = {Inter frame motion estimation and its application to image sequence compression: an introduction; Estimacion del movimiento interframe y su aplicacion en la compresion de secuencias de imagenes: una introduccion}
author = {Cremy, C}
abstractNote = {With the constant development of new communication technologies like, digital TV, teleconference, and the development of image analysis applications, there is a growing volume of data to manage. Compression techniques are required for the transmission and storage of these data. Dealing with original images would require the use of expansive high bandwidth communication devices and huge storage media. Image sequence compression can be achieved by means of interframe estimation that consists in retrieving redundant information relative to zones where there is little motion between two frames. This paper is an introduction to some motion estimation techniques like gradient techniques, pel-recursive, block-matching, and its application to image sequence compression. (Author) 17 refs.}
place = {Spain}
year = {1996}
month = {Jul}
}
title = {Inter frame motion estimation and its application to image sequence compression: an introduction; Estimacion del movimiento interframe y su aplicacion en la compresion de secuencias de imagenes: una introduccion}
author = {Cremy, C}
abstractNote = {With the constant development of new communication technologies like, digital TV, teleconference, and the development of image analysis applications, there is a growing volume of data to manage. Compression techniques are required for the transmission and storage of these data. Dealing with original images would require the use of expansive high bandwidth communication devices and huge storage media. Image sequence compression can be achieved by means of interframe estimation that consists in retrieving redundant information relative to zones where there is little motion between two frames. This paper is an introduction to some motion estimation techniques like gradient techniques, pel-recursive, block-matching, and its application to image sequence compression. (Author) 17 refs.}
place = {Spain}
year = {1996}
month = {Jul}
}