INTEGRATED H.264 REGION-OF-INTEREST DETECTION, TRACKING AND COMPRESSION FOR SURVEILLANCE SCENES

Motion detection and tracking is an important vision topic for many applications such as video surveillance. When this process takes place during video encoding and transmission, Regions-of-Interest (RoIs) turn to be a very useful tool in order to favor the encoding of such regions compared to the fixed background. In this paper, we show that, in conjunction with effective spatio-temporal filters, H264 Motion Estimation can be efficiently used for a robust and coarse-grain detection and tracking of moving objects. The integration of the compression and detection modules enables the prediction of ROIs positions from previous frames, offering therefore tracking at a very low computational cost. In the case of high resolution sequences affected by severe quality degradation (such as improper interlacing, light reflections and camera shaking), the global video compression ratio can be dramatically improved without damaging the ROI. This is especially the case when appropriate encoding options, i.e. appropriate Flexible Macroblock Ordering (FMO) types, are exploited. Different proposals are offered to maximize the quality of the RoI facing a dynamic constraint of the network bandwidth. Index Terms-- H.264/AVC, motion detection&tracking, region of interest, constrained bandwidth, traffic monitoring 1. INTRODUCTION AND OVERVIEW Recent years have witnessed a massive diversification and growth of applications in both wired and wireless networking technologies. Hence, despite the progress achieved both in terms of networking and video compression technologies such as H.264/AVC [1], there is still a gap between the bandwidth required by large camera networks and the transmission capabilities offered by wireless networks.