AI Article Synopsis
- The brightness of objects in bright light often exceeds the range that typical optical sensors can handle.
- The paper proposes locally adaptive optical protection (LAOP) filtering systems to help both technical sensors and human vision cope with extreme brightness.
- Experiments discussed in the paper focus on the key components of LAOP filtering, showing its effectiveness in reducing glare while maintaining clear visibility of all scene elements.
Article Abstract
In the presence of direct sunlight or superbright light from artificial optical sources, the distribution of light intensity (brightness) over perceived scene objects typically has a dynamic range several orders of magnitude greater than the dynamic range of most optical sensors. In this paper, the locally adaptive optical protection (LAOP) filtering systems for technical vision sensors and human eyes (human visual system) are suggested. The LAOP filtering provides the reliable perception of the perceived scene objects with normal brightness simultaneously with preventing saturation ("blinding") of the optical sensors by light from the brightest objects. The characteristics of the key components of the LAOP filtering systems are discussed and tested experimentally.
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| http://dx.doi.org/10.1364/AO.59.0000B1 | DOI Listing |
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View Article and Find Full Text PDFArticle Synopsis
- The brightness of objects in bright light often exceeds the range that typical optical sensors can handle.
- The paper proposes locally adaptive optical protection (LAOP) filtering systems to help both technical sensors and human vision cope with extreme brightness.
- Experiments discussed in the paper focus on the key components of LAOP filtering, showing its effectiveness in reducing glare while maintaining clear visibility of all scene elements.
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