Change-driven data flow image processing architecture for optical flow computation

Julio C. Sosa; Jose A. Boluda; Fernando Pardo; Rocío Gómez-Fabela

doi:10.1007/s11554-007-0060-y

Change-driven data flow image processing architecture for optical flow computation

Julio C. Sosa, Jose A. Boluda, Fernando Pardo, Rocío Gómez-Fabela

Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada (CICATA), Unidad Querétaro

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

10 Citas (Scopus)

Resumen

Optical flow computation has been extensively used for motion estimation of objects in image sequences. The results obtained by most optical flow techniques are computationally intensive due to the large amount of data involved. A new change-based data flow pipelined architecture has been developed implementing the Horn and Schunk smoothness constraint; pixels of the image sequence that significantly change, fire the execution of the operations related to the image processing algorithm. This strategy reduces the data and, combined with the custom hardware implemented, it achieves a significant optical flow computation speed-up with no loss of accuracy. This paper presents the bases of the change-driven data flow image processing strategy, as well as the implementation of custom hardware developed using an Altera Stratix PCI development board.

Idioma original	Inglés
Páginas (desde-hasta)	259-270
Número de páginas	12
Publicación	Journal of Real-Time Image Processing
Volumen	2
N.º	4
DOI	https://doi.org/10.1007/s11554-007-0060-y
Estado	Publicada - dic. 2007

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title = "Change-driven data flow image processing architecture for optical flow computation",

abstract = "Optical flow computation has been extensively used for motion estimation of objects in image sequences. The results obtained by most optical flow techniques are computationally intensive due to the large amount of data involved. A new change-based data flow pipelined architecture has been developed implementing the Horn and Schunk smoothness constraint; pixels of the image sequence that significantly change, fire the execution of the operations related to the image processing algorithm. This strategy reduces the data and, combined with the custom hardware implemented, it achieves a significant optical flow computation speed-up with no loss of accuracy. This paper presents the bases of the change-driven data flow image processing strategy, as well as the implementation of custom hardware developed using an Altera Stratix PCI development board.",

keywords = "Data flow architectures, Motion estimation, Optical flow computation",

author = "Sosa, {Julio C.} and Boluda, {Jose A.} and Fernando Pardo and Roc{\'i}o G{\'o}mez-Fabela",

note = "Funding Information: Acknowledgment This work has been supported by the project TEC2006-08130/MIC of the Spanish Ministerio de Educaci{\'o}n y Ciencia.",

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AU - Sosa, Julio C.

AU - Boluda, Jose A.

AU - Pardo, Fernando

AU - Gómez-Fabela, Rocío

N1 - Funding Information: Acknowledgment This work has been supported by the project TEC2006-08130/MIC of the Spanish Ministerio de Educación y Ciencia.

PY - 2007/12

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N2 - Optical flow computation has been extensively used for motion estimation of objects in image sequences. The results obtained by most optical flow techniques are computationally intensive due to the large amount of data involved. A new change-based data flow pipelined architecture has been developed implementing the Horn and Schunk smoothness constraint; pixels of the image sequence that significantly change, fire the execution of the operations related to the image processing algorithm. This strategy reduces the data and, combined with the custom hardware implemented, it achieves a significant optical flow computation speed-up with no loss of accuracy. This paper presents the bases of the change-driven data flow image processing strategy, as well as the implementation of custom hardware developed using an Altera Stratix PCI development board.

AB - Optical flow computation has been extensively used for motion estimation of objects in image sequences. The results obtained by most optical flow techniques are computationally intensive due to the large amount of data involved. A new change-based data flow pipelined architecture has been developed implementing the Horn and Schunk smoothness constraint; pixels of the image sequence that significantly change, fire the execution of the operations related to the image processing algorithm. This strategy reduces the data and, combined with the custom hardware implemented, it achieves a significant optical flow computation speed-up with no loss of accuracy. This paper presents the bases of the change-driven data flow image processing strategy, as well as the implementation of custom hardware developed using an Altera Stratix PCI development board.

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KW - Optical flow computation

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U2 - 10.1007/s11554-007-0060-y

DO - 10.1007/s11554-007-0060-y

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JO - Journal of Real-Time Image Processing

JF - Journal of Real-Time Image Processing

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Change-driven data flow image processing architecture for optical flow computation

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