Model-based motion estimation for synthetic images

Maneesh Agrawala, Andrew C. Beers, and Navin Chaddha
Accepted to ACM Multimedia 95

Abstract

One approach to performing motion estimation on synthetic animations is to treat them as video sequences and use standard image-based motion estimation methods. Alternatively, we can take advantage of information used in rendering the animation to guide the motion estimation algorithm. This information includes the 3D movements of the objects in the scene and the projection transformations from 3D world space into screen space. In this paper we examine how to use this high level object motion information to perform fast, accurate block-based motion estimation for synthetic animations.

The optical flow field is a 2D vector field describing the translational motion of each pixel from frame to frame. Our motion estimation algorithm first computes the optical flow field, based on the object motion information. We then combine the per-pixel motion information for a block of pixels to create a single 2D projective matrix that best encodes the motion of all the pixels in the block. The entries of the 2D matrix are determined using a least squares formulation. Our algorithms are more accurate and much faster in algorithmic complexity than most image-based motion estimation algorithms.

Other information available:

Postscript version of paper
TIFF of Figure 1
TIFF of Figure 2
TIFF of Figure 3
TIFF of Figure 11
MPEG movies of animation sequences used as examples. These movies are made with standard MPEG using a logarithmic search to find block correspondences. Our motion estimation techniques were not employed in encoding these movies.

BALLS sequence (88kB)
CUBES-SPIN sequence (131kB)
FINDSPOT sequence (101kB)
ROTBUNNY sequence (66kB)
SCALEBUNNY sequence (51kB)
TOPSPIN sequence (70kB)
TRANSBUNNY sequence (65kB)

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