Robust computation of optical flow field with large motion

Zexu Zhang; Jinzong Li; Xiangquan Wei

Robust computation of optical flow field with large motion

Zexu Zhang^*
, Jinzong Li
, Xiangquan Wei

^*Corresponding author for this work

School of Astronautics, Harbin Institute of Technology

Research output: Contribution to conference › Paper › peer-review

2 Scopus citations

Abstract

The robust computation of large motion has been an important but difficult problem in dynamic scene analysis. This paper presents a novel algorithm to determine optical flow field with large motion from the sequences of images. The algorithm integrates the modified gradient constraint equation with the anisotropic diffusion, which not only decreases the error of constant image brightness assumption caused by large motion, but also alleviates the error propagation effect. The algorithm is based on a multi-scale Gaussian pyramid. The large-scale intensity information at coarse image level is first used to obtain rough estimations of image motion, which are then refined by using the small-scale intensity information at fine image level. Experiments on synthetic and real image sequences have shown that the method had good computation accuracy and robustness for large motion.

Original language	English
Pages	893-896
Number of pages	4
State	Published - 2004
Externally published	Yes
Event	2004 7th International Conference on Signal Processing Proceedings (ICSP'04) - Beijing, China Duration: 31 Aug 2004 → 4 Sep 2004

Conference

Conference	2004 7th International Conference on Signal Processing Proceedings (ICSP'04)
Country/Territory	China
City	Beijing
Period	31/08/04 → 4/09/04

Keywords

Dynamic scene analysis flow velocity
Optical flow field multi-scale robustness

Cite this

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title = "Robust computation of optical flow field with large motion",

abstract = "The robust computation of large motion has been an important but difficult problem in dynamic scene analysis. This paper presents a novel algorithm to determine optical flow field with large motion from the sequences of images. The algorithm integrates the modified gradient constraint equation with the anisotropic diffusion, which not only decreases the error of constant image brightness assumption caused by large motion, but also alleviates the error propagation effect. The algorithm is based on a multi-scale Gaussian pyramid. The large-scale intensity information at coarse image level is first used to obtain rough estimations of image motion, which are then refined by using the small-scale intensity information at fine image level. Experiments on synthetic and real image sequences have shown that the method had good computation accuracy and robustness for large motion.",

keywords = "Dynamic scene analysis flow velocity, Optical flow field multi-scale robustness",

author = "Zexu Zhang and Jinzong Li and Xiangquan Wei",

year = "2004",

language = "英语",

pages = "893--896",

note = "2004 7th International Conference on Signal Processing Proceedings (ICSP'04) ; Conference date: 31-08-2004 Through 04-09-2004",

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TY - CONF

T1 - Robust computation of optical flow field with large motion

AU - Zhang, Zexu

AU - Li, Jinzong

AU - Wei, Xiangquan

PY - 2004

Y1 - 2004

N2 - The robust computation of large motion has been an important but difficult problem in dynamic scene analysis. This paper presents a novel algorithm to determine optical flow field with large motion from the sequences of images. The algorithm integrates the modified gradient constraint equation with the anisotropic diffusion, which not only decreases the error of constant image brightness assumption caused by large motion, but also alleviates the error propagation effect. The algorithm is based on a multi-scale Gaussian pyramid. The large-scale intensity information at coarse image level is first used to obtain rough estimations of image motion, which are then refined by using the small-scale intensity information at fine image level. Experiments on synthetic and real image sequences have shown that the method had good computation accuracy and robustness for large motion.

AB - The robust computation of large motion has been an important but difficult problem in dynamic scene analysis. This paper presents a novel algorithm to determine optical flow field with large motion from the sequences of images. The algorithm integrates the modified gradient constraint equation with the anisotropic diffusion, which not only decreases the error of constant image brightness assumption caused by large motion, but also alleviates the error propagation effect. The algorithm is based on a multi-scale Gaussian pyramid. The large-scale intensity information at coarse image level is first used to obtain rough estimations of image motion, which are then refined by using the small-scale intensity information at fine image level. Experiments on synthetic and real image sequences have shown that the method had good computation accuracy and robustness for large motion.

KW - Dynamic scene analysis flow velocity

KW - Optical flow field multi-scale robustness

UR - https://www.scopus.com/pages/publications/7744231353

M3 - 论文

AN - SCOPUS:7744231353

SP - 893

EP - 896

T2 - 2004 7th International Conference on Signal Processing Proceedings (ICSP'04)

Y2 - 31 August 2004 through 4 September 2004

ER -

Robust computation of optical flow field with large motion

Abstract

Conference

Keywords

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