Optical flow cluster filtering for ROI coding

Current Moving Object Detectors in airborne Region of Interest (ROI) coding systems for police surveillance applications used on-board of UAVs are often based on Global Motion Estimation (GME) techniques. Since in these scenarios the camera is moving, simple background removal approaches cannot be applied without a Global Motion Compensation (GMC). Common GMC algorithms assume the ground to be planar, allowing the pixels of the previous frame to be motion compensated into the current frame by applying a projective transformation. The difference image between the compensated frame and the current frame emphasis regions containing possible motion. Such moving object detectors are great in terms of run-time efficiency but are known to lack in terms of accuracy - especially for unstructured regions of moving objects - as well as the robustness against noise. Superpixel segmentation was recently proposed to overcome the issue of the imprecise region cuts given by the difference image. It provides a greatly improved true positive detection rate, but unintentionally also increases the area of false positives. This paper proposes the use of a mesh-based GME and GMC to detect the moving object regions wherein a cluster filter eliminates errors in the optical flow by assuming a smooth vector field as the global motion model. In doing so we improve the coding efficiency of the fully automatic ROI coding system by more than 24% for moving object areas conserving the detection benefits of the integration of superpixel segmentation.