We introduce a view-point invariant representation of moving object trajectories that can be used in video database applications. It is assumed that trajectories lie on a surface that can be locally approximated with a plane. Raw trajectory data is first locally approximated with a cubic spline via least squares fitting. For each sampled point of the obtained curve, a projective invariant feature is computed using a small number of points in its neighborhood. The resulting sequence of invariant features computed along the entire trajectory forms the view invariant descriptor of the trajectory itself. Time parametrization has been exploited to compute cross ratios without ambiguity due to point ordering. Similarity between descriptors of dif...
We introduce a method for recovering the spatial and temporal alignment between two or more views of...
Temporal synchronization of multiple video recordings of the same dynamic event is a critical task i...
This paper presents a technique to efficiently index and retrieve video clips in terms of motion-tra...
We introduce a view–point invariant representation of moving object trajectories that can be used in...
The increasing volume of video motivates research on video management. Related topics include video...
In this paper, we propose an approach that retrieves motion of objects from the videos based on the ...
In this paper, we propose a novel method to establish temporal correspondence between the frames of ...
In this paper, we propose an approach that retrieves actions from the videos based on the dynamic ti...
The paper suggests a contour-based algorithm for tracking moving objects in video. The inputs are ...
International audienceIn this paper we focus on problems that deal with comparison of shapes of traj...
Automatically understanding human actions using motion trajectories derived from video sequences is ...
Automatically understanding human actions from video sequences is a very challenging problem. This i...
Invariant representations of demonstrated motion trajectories provide context-independent motion mod...
We introduce the concept of the \u27characteristic vector\u27 as an invariant vector associated with...
a) b)c) d)-trajectories DB e) Figure 1: Our novel approach to cross-view action recognition. a) We b...
We introduce a method for recovering the spatial and temporal alignment between two or more views of...
Temporal synchronization of multiple video recordings of the same dynamic event is a critical task i...
This paper presents a technique to efficiently index and retrieve video clips in terms of motion-tra...
We introduce a view–point invariant representation of moving object trajectories that can be used in...
The increasing volume of video motivates research on video management. Related topics include video...
In this paper, we propose an approach that retrieves motion of objects from the videos based on the ...
In this paper, we propose a novel method to establish temporal correspondence between the frames of ...
In this paper, we propose an approach that retrieves actions from the videos based on the dynamic ti...
The paper suggests a contour-based algorithm for tracking moving objects in video. The inputs are ...
International audienceIn this paper we focus on problems that deal with comparison of shapes of traj...
Automatically understanding human actions using motion trajectories derived from video sequences is ...
Automatically understanding human actions from video sequences is a very challenging problem. This i...
Invariant representations of demonstrated motion trajectories provide context-independent motion mod...
We introduce the concept of the \u27characteristic vector\u27 as an invariant vector associated with...
a) b)c) d)-trajectories DB e) Figure 1: Our novel approach to cross-view action recognition. a) We b...
We introduce a method for recovering the spatial and temporal alignment between two or more views of...
Temporal synchronization of multiple video recordings of the same dynamic event is a critical task i...
This paper presents a technique to efficiently index and retrieve video clips in terms of motion-tra...