Title :
A novel video key-frame-extraction algorithm based on perceived motion energy model
Author :
Liu, Tianming ; Zhang, Hong-Jiang ; Qi, Feihu
Author_Institution :
Microsoft Res. Asia, Beijing, China
Abstract :
The key frame is a simple yet effective form of summarizing a long video sequence. The number of key frames used to abstract a shot should be compliant to visual content complexity within the shot and the placement of key frames should represent most salient visual content. Motion is the more salient feature in presenting actions or events in video and, thus, should be the feature to determine key frames. We propose a triangle model of perceived motion energy (PME) to model motion patterns in video and a scheme to extract key frames based on this model. The frames at the turning point of the motion acceleration and motion deceleration are selected as key frames. The key-frame selection process is threshold free and fast and the extracted key frames are representative.
Keywords :
database indexing; feature extraction; image sequences; video databases; video signal processing; key-frame selection; motion acceleration; motion deceleration; motion patterns modelling; perceived motion energy; perceived motion energy model; triangle model; video indexing; video key-frame-extraction algorithm; video sequence summarization; visual content complexity; visual content representation; Acceleration; Asia; Current measurement; Data mining; Euclidean distance; Histograms; Indexing; Layout; Turning; Video sequences;
Journal_Title :
Circuits and Systems for Video Technology, IEEE Transactions on
DOI :
10.1109/TCSVT.2003.816521
