CaltechAUTHORS
Published 2010 | Published
Book Section - Chapter Open

Cascaded Pose Regression

Dollár, Piotr
Welinder, Peter
Perona, Pietro ORCID icon
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Abstract

We present a fast and accurate algorithm for computing the 2D pose of objects in images called cascaded pose regression (CPR). CPR progressively refines a loosely specified initial guess, where each refinement is carried out by a different regressor. Each regressor performs simple image measurements that are dependent on the output of the previous regressors; the entire system is automatically learned from human annotated training examples. CPR is not restricted to rigid transformations: 'pose' is any parameterized variation of the object's appearance such as the degrees of freedom of deformable and articulated objects. We compare CPR against both standard regression techniques and human performance (computed from redundant human annotations). Experiments on three diverse datasets (mice, faces, fish) suggest CPR is fast (2-3ms per pose estimate), accurate (approaching human performance), and easy to train from small amounts of labeled data.

Additional Information

© 2010 IEEE. Issue Date: 13-18 June 2010; Date of Current Version: 05 August 2010. We thank Dayu Lin and David Anderson for the mice data, support and motivation; and Konstantin Startchev and Jacob Engelmann for providing the fish data and helpful discussions. This work was supported by ONR MURI Grant #N00014-06-1-0734 and ONR/Evolution Grant #N00173- 09-C-4005. PD was supported by a Caltech Endowment Award #101240.

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