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Algorithm, ideas: Dr. Dmitriy Vatolin
Algorithm, implementation: Sergey Grishin,
Kostya Strelnikov, Maxim Makhinya, Sergey Putilin

Interest in advanced interactivity with multimedia data significantly increased last years. This cause an advent of new standards proposing the functionality for manipulation with multimedia data (an example of such a standard is MPEG4). That is why segmentation algorithms find its application in wide range of areas including content-based representation of multimedia data, improvement of coding efficiency in video compression standards, sophisticated query and retrieval of video and other content-based functionalities for multimedia applications.

Our developed algorithm performs detection and tracking of foreground (FG) objects in video. This is done by calculation of global motion with further estimation of local motion. Detection of a FG object position is then performed based on the information about global and local motion. The principal advantage of the method is its ability to detect a FG object even in case of ultra slow motion which is not common for algorithms of this type. Another important advantages include:

• adjustable speed/quality trade-off
• several segmentation precision levels
• does not require manual segmentation

Examples

This section contains segmentation results of developed algorithm and its comparison with algorithm developed at University of Florida.

The first example (pic. 1, 2) demonstrates result obtained using 'dancer' test video sequence:

Pic.1 Original frame

Pic.2 Segmentation result

The second example (pic. 3, 4) shows result obtained using 'table tennis' test video sequence:

Pic.3 Original frame

Pic.4 Segmentation result

The next example (pic. 5, 6) shows segmentation result of 'bus' test video sequence:

Pic.5 Original frame

Pic.6 Segmentation result

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Last updated: 12-October-2007

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Project sponsored by YUVsoft Corp.

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