Abstract

We propose a 3-step algorithm for the automatic detection of moving objects in video sequences using region-based active contours. First, we introduce a very full general framework for region-based active contours with a new Eulerian method to compute the evolution equation of the active contour from a criterion including both region-based and boundary-based terms. This framework can be easily adapted to various applications, thanks to the introduction of functions named descriptors of the different regions. With this new Eulerian method based on shape optimization principles, we can easily take into account the case of descriptors depending upon features globally attached to the regions. Second, we propose a 3-step algorithm for detection of moving objects, with a static or a mobile camera, using region-based active contours. The basic idea is to hierarchically associate temporal and spatial information. The active contour evolves with successively three sets of descriptors: a temporal one, and then two spatial ones. The third spatial descriptor takes advantage of the segmentation of the image in intensity homogeneous regions. User interaction is reduced to the choice of a few parameters at the beginning of the process. Some experimental results are supplied.

Highlights

  • Automatic segmentation of video objects is still a matter of intensive research and is a crucial issue for the development of the new video coding standards MPEG-4 [1, 2] and MPEG-7 [3]

  • The second contribution of this paper is to propose a 3-step algorithm for detection of moving objects using the previous general framework

  • To implement the level-set method, solutions must be found to circumvent problems coming from the fact that the signed distance function Un is not a solution of the partial differential equation (PDE) (23)

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Summary

INTRODUCTION

Automatic segmentation of video objects is still a matter of intensive research and is a crucial issue for the development of the new video coding standards MPEG-4 [1, 2] and MPEG-7 [3]. For video objects detection, it is interesting to incorporate region-based information in the evolution equation of the active contour. Starting from a criterion including both region-based and boundary-based terms, we build a new efficient method, based on shape optimization principles, to compute the evolution equation of an active contour. This method ensures the fastest decrease of the active contour towards a minimum of the criterion. The second contribution of this paper is to propose a 3-step algorithm for detection of moving objects using the previous general framework In this algorithm, the active contour evolves with successively three sets of descriptors.

REGION-BASED ACTIVE CONTOURS
Introduction of a general criterion
Computation of the derivative
From the derivative towards the evolution equation of the active contour
Implementation with the level-set method
VIDEO OBJECT SEGMENTATION WITH A 3-STEP ALGORITHM
First step
Second step: edge-based descriptors
Third step: descriptors using regions partition
Region growing method
Descriptors
Remarks
EXPERIMENTAL RESULTS
Evaluation of segmentation results
CONCLUSION

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