Active models for tracking moving objects

In this paper, we propose a model-based tracking algorithm which can extract trajectory information of a target object by detecting and tracking a moving object from a sequence of images. The algorithm constructs a model from the detected moving object and match the model with successive image frames to track the target object. We use an active model which characterizes regional and structural features of a target object such as shape, texture, color, and edgeness. Our active model can adapt itself dynamically to an image sequence so that it can track a non-rigid moving object. Such an adaptation is made under the framework of energy minimization. We design an energy function so that the function can embody structural attributes of a target as well as its spectral attributes. We applied Kalman "lter to predict motion information. The predicted motion information by Kalman "lter was used very e$ciently to reduce the search space in the matching process.