I. Introduction

The development of perception-based motion estimation methods based on multiscale amplitude-modulation frequency-modulation (AM-FM) methods has a strong interest in digital video processing [1]. The standard use of perception-based methods for motion estimation methods rely on the use of Gabor filters, requiring a large number of frames to be computed [1]. Our motivation for the new perception-based approach comes from the need to maintain compatibility with the majority of optical flow motion methods that are based on a small number of video frames [2], [3] and the fact that there are no perception-based methods that can produce motion estimation estimates at every single pixel in biomedical applications like in speckled ultrasound videos [4], [5].