ML Anthology

Illumination-Invariant Face Recognition with a Contrast Sensitive Silicon Retina

Joachim M. Buhmann, Martin Lades, Frank Eeckman
NeurIPS 1993 pp. 769-776
/neurips/1993/buhmann1993neurips-illuminationinvariant/

Abstract

Changes in lighting conditions strongly effect the performance and reli(cid:173) ability of computer vision systems. We report face recognition results under drastically changing lighting conditions for a computer vision sys(cid:173) tem which concurrently uses a contrast sensitive silicon retina and a con(cid:173) ventional, gain controlled CCO camera. For both input devices the face recognition system employs an elastic matching algorithm with wavelet based features to classify unknown faces. To assess the effect of analog on -chip preprocessing by the silicon retina the CCO images have been "digitally preprocessed" with a bandpass filter to adjust the power spec(cid:173) trum. The silicon retina with its ability to adjust sensitivity increases the recognition rate up to 50 percent. These comparative experiments demonstrate that preprocessing with an analog VLSI silicon retina gen(cid:173) erates image data enriched with object-constant features.

PDF NeurIPS Semantic Scholar

Cite

Text

Buhmann et al. "Illumination-Invariant Face Recognition with a Contrast Sensitive Silicon Retina." Neural Information Processing Systems, 1993.

Markdown

[Buhmann et al. "Illumination-Invariant Face Recognition with a Contrast Sensitive Silicon Retina." Neural Information Processing Systems, 1993.](https://mlanthology.org/neurips/1993/buhmann1993neurips-illuminationinvariant/)

BibTeX

@inproceedings{buhmann1993neurips-illuminationinvariant,
  title     = {{Illumination-Invariant Face Recognition with a Contrast Sensitive Silicon Retina}},
  author    = {Buhmann, Joachim M. and Lades, Martin and Eeckman, Frank},
  booktitle = {Neural Information Processing Systems},
  year      = {1993},
  pages     = {769-776},
  url       = {https://mlanthology.org/neurips/1993/buhmann1993neurips-illuminationinvariant/}
}