PAPER DIGEST
Most Influential CVPR 1996 Paper · 2026-03 edition

The Integration Of Optical Flow And Deformable Models With Applications To Human Face Shape And Motion Estimation

D. DeCarlo and D. Metaxas

Venue
IEEE Conference on Computer Vision and Pattern Recognition (CVPR) 1996
Recognition
Most Influential CVPR 1996 Paper (Rank No. 15)
Edition
2026-03
Impact factor
6
Certificate ID
a703ccd971fc5a68

Abstract

We present a formal methodology for the integration of optical flow and deformable models. The optical flow constraint equation provides a non-holonomic constraint on the motion of the deformable model. In this augmented system, forces computed from edges and optical flow are used simultaneously. When this dynamic system is solved, a model-based least-squares solution for the optical flow is obtained and improved estimation results are achieved. The use of a 3-D model reduces or eliminates problems associated with optical flow computation. This approach instantiates a general methodology for treating visual cues as constraints on deformable models. We apply this framework to human face shape and motion estimation. Our 3-D deformable face model uses a small number of parameters to describe a rich variety of face shapes and facial expressions. We present experiments in extracting the shape and motion of a face from image sequences.

Download PDF certificate