Name
Abstract | ||
|---|---|---|
Recent years have witnessed significant progress in detection of basic human actions. However, most existing methods rely on assumptions such as known spatial locations and temporal segmentations or employ very computationally expensive approaches such as sliding window search through a spatio-temporal volume. It is difficult for such methods to scale up to handle the challenges in real applications such as video surveillance. In this paper, we present an efficient and practical approach to detecting basic human actions, such as making cell phone calls, putting down objects, and hand-pointing, which has been extensively tested on the challenging 2008 TRECVID surveillance event detection dataset . We propose a novel action representation scheme using a set of motion edge history images, which not only encodes both shape and motion patterns of actions without relying on precise alignment of human figures, but also facilitates learning of fast tree-structured boosting classifiers. Our approach is robust with respect to cluttered background as well as scale and viewpoint changes. It is also computationally efficient by taking advantage of human detection and tracking to reduce the searching space. We demonstrate promising results on the 50-hour TRECVID development set as well as two other widely-used benchmark datasets of action recognition, i.e. the KTH dataset and the Weizmann dataset. |
Year | DOI | Venue |
|---|---|---|
2009 | 10.1109/ICCVW.2009.5457656 | Computer Vision Workshops |
Keywords | Field | DocType |
image motion analysis,image segmentation,tree data structures,visual databases,kth dataset,weizmann dataset,action recognition,cell phone calls,hand pointing,human action detection,motion features boosting,motion patterns,putting down objects,spatial locations,spatio temporal volume,temporal segmentations,tree structured boosting classifiers,head,feature extraction,tracking,history,boosting | Computer science,Image segmentation,Phone,Artificial intelligence,Computer vision,Sliding window protocol,Pattern recognition,TRECVID,Tree (data structure),Feature extraction,Putting down objects,Boosting (machine learning),Machine learning | Conference |
Volume | Issue | ISBN |
2009 | 1 | 978-1-4244-4441-0 |
Citations | PageRank | References |
16 | 1.13 | 22 |
Authors | ||
5 | ||
Name | Order | Citations | PageRank |
|---|---|---|---|
| Ming Yang | 1 | 3471 | 162.50 |
| Fengjun Lv | 2 | 2490 | 87.05 |
| wei xu | 3 | 3533 | 207.17 |
| Yu, Kai | 4 | 4799 | 255.21 |
| yihong gong | 5 | 7300 | 470.57 |