Add to ORKGIn this paper, we present an efficient method for motion retrieval method based on the consistency of the homographies with the epipolar geometry. We treat the body pose as body point triplets and use the fact that each homography obtained from corresponding body point triplets should be consistent with epipolar geometry to estimate the similarity of two poses. We show that our method is invariant to camera internal parameters and viewpoint. Experiments are performed on the CMU MoCap dataset, and IXMAS dataset testing testing view-invariance, and action recognition. The results demonstrate that our method can accurately identify human action from video sequences when they are observed from totally different viewpoints with different camera ...
In this paper I try to show that through epipolar geometry we can unify the problems of image matchi...
In this paper, we fully investigate the concept of fundamental ratios, demonstrate their application...
This paper presents a novel approach to implement estimation and recognition of human motion from un...
Most work in action recognition deals with sequences acquired by stationary cameras with fixed viewp...
Most work in action recognition deals with sequences acquired by stationary cameras with fixed viewp...
When the camera viewing an action is moving, the motion observed in the video not only contains the ...
Variation in viewpoints poses significant challenges to action recognition. One popular way of encod...
In this paper we deal with the problem of matching moving objects between multiple views using geome...
When the camera viewing an action is moving, the motion observed in the video not only contains the ...
Recovering the relative motion of a moving camera from images is a classic problem in computer visio...
We propose a new view-invariant measure for action recognition. For this purpose, we introduce the i...
We present a new algorithm for estimation of rigid body motion parameters and scene structure from m...
We introduce the concept of the \u27characteristic vector\u27 as an invariant vector associated with...
We propose a new view-invariant measure for action recognition. For this purpose, we introduce the i...
In this paper, we present a new approach for view-invariant action recognition using constraints der...
In this paper I try to show that through epipolar geometry we can unify the problems of image matchi...
In this paper, we fully investigate the concept of fundamental ratios, demonstrate their application...
This paper presents a novel approach to implement estimation and recognition of human motion from un...
Most work in action recognition deals with sequences acquired by stationary cameras with fixed viewp...
Most work in action recognition deals with sequences acquired by stationary cameras with fixed viewp...
When the camera viewing an action is moving, the motion observed in the video not only contains the ...
Variation in viewpoints poses significant challenges to action recognition. One popular way of encod...
In this paper we deal with the problem of matching moving objects between multiple views using geome...
When the camera viewing an action is moving, the motion observed in the video not only contains the ...
Recovering the relative motion of a moving camera from images is a classic problem in computer visio...
We propose a new view-invariant measure for action recognition. For this purpose, we introduce the i...
We present a new algorithm for estimation of rigid body motion parameters and scene structure from m...
We introduce the concept of the \u27characteristic vector\u27 as an invariant vector associated with...
We propose a new view-invariant measure for action recognition. For this purpose, we introduce the i...
In this paper, we present a new approach for view-invariant action recognition using constraints der...
In this paper I try to show that through epipolar geometry we can unify the problems of image matchi...
In this paper, we fully investigate the concept of fundamental ratios, demonstrate their application...
This paper presents a novel approach to implement estimation and recognition of human motion from un...