This paper proposes a method for computing fast approximations to support vector decision functions in the field of object detection. In the present approach we are building on an existing algorithm where the set of support vectors is replaced by a smaller, so-called reduced set of synthesized input space points. In contrast to the existing method that finds the reduced set via unconstrained optimization, we impose a structural constraint on the synthetic points such that the resulting approximations can be evaluated via separable filters. For applications that require scanning an entire image, this decreases the computational complexity of a scan by a significant amount. We present experimental results on a standard face detection database.
| Author(s): | Kienzle, W. and BakIr, G. and Franz, M. and Schölkopf, B. |
| Book Title: | Advances in Neural Information Processing Systems 17 |
| Journal: | Advances in Neural Information Processing Systems |
| Pages: | 673-680 |
| Year: | 2005 |
| Month: | July |
| Day: | 0 |
| Editors: | LK Saul and Y Weiss and L Bottou |
| Publisher: | MIT Press |
| Bibtex Type: | Conference Paper (inproceedings) |
| Address: | Cambridge, MA, USA |
| Event Name: | 18th Annual Conference on Neural Information Processing Systems (NIPS 2004) |
| Event Place: | Vancouver, BC, Canada |
| Digital: | 0 |
| Electronic Archiving: | grant_archive |
| ISBN: | 0-262-19534-8 |
| Organization: | Max-Planck-Gesellschaft |
| School: | Biologische Kybernetik |
| Links: | |
BibTex
@inproceedings{2776,
title = {Face Detection: Efficient and Rank Deficient},
journal = {Advances in Neural Information Processing Systems},
booktitle = {Advances in Neural Information Processing Systems 17},
abstract = {This paper proposes a method for computing fast approximations to support vector decision functions in the field of object detection. In the present approach we are building on an existing algorithm where the set of support vectors is replaced by a smaller, so-called reduced set of synthesized input space points. In contrast to the existing method that finds the reduced set via unconstrained optimization, we impose a structural constraint on the synthetic points such that the resulting approximations can be evaluated via separable filters. For applications that require scanning an entire image, this decreases the computational complexity of a scan by a significant amount. We present experimental results on a standard face detection database.},
pages = {673-680},
editors = {LK Saul and Y Weiss and L Bottou},
publisher = {MIT Press},
organization = {Max-Planck-Gesellschaft},
school = {Biologische Kybernetik},
address = {Cambridge, MA, USA},
month = jul,
year = {2005},
slug = {2776},
author = {Kienzle, W. and BakIr, G. and Franz, M. and Sch{\"o}lkopf, B.},
month_numeric = {7}
}