Backward-compatible high dynamic range imaging : acquisition, display and compression
High dynamic range imaging (HDR) techniques can provide excellent visual experience which is comparable to the human visual system, thus it is supposed to be the future of imaging techniques. However, because of relative slow pavement in development and deployment of HDR display technology, most con...
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sg-ntu-dr.10356-754042023-07-04T17:29:46Z Backward-compatible high dynamic range imaging : acquisition, display and compression Wei, Zhe Wen Changyun School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering High dynamic range imaging (HDR) techniques can provide excellent visual experience which is comparable to the human visual system, thus it is supposed to be the future of imaging techniques. However, because of relative slow pavement in development and deployment of HDR display technology, most consumers, who are only equipped with conventional low dynamic range (LDR) displays cannot benefit from the new imaging technology because the HDR images are not directly viewable on LDR displays. Backward-compatible solutions are needed so that LDR consumers can gradually accept and upgrade legacy LDR imaging techniques to HDR ones. In this thesis, we provide three backward-compatible solutions in the acquisition, display and compression stages of the high dynamic range imaging pipeline. In the acquisition stage, we propose a detail-enhanced exposure fusion algorithm to directly acquire an HDR-like LDR image by merging a bracket of differently exposed LDR images. The acquired LDR image, which preserves information in brightest and darkest regions as well as the fine-details of the scene, can provide superior HDR-like visual experience without generating intermediate HDR images. In the display stage, we propose an efficient saliency-aware tone mapping operator to reproduce the HDR image on conventional LDR displays. Our method takes the overall brightness, contrast and details preservation and visual attention into consideration. We manage to view HDR images on LDR displays without degrading its visual quality too much. In the compression stage, we propose a two-layer local inverse tone mapping algorithm to estimate an HDR image from its locally tone-mapped version. And we successfully adopt it in HDR image scalable coding to improve the coding efficiency for efficient backward-compatible distribution of HDR images. In conclusion, our backward-compatible solutions enable LDR consumers to enjoy superior visual experience provided by HDR imaging techniques. Our work should be helpful for transition from LDR imaging techniques to HDR ones. Doctor of Philosophy (EEE) 2018-05-31T03:45:39Z 2018-05-31T03:45:39Z 2018 Thesis Wei, Z. (2018). Backward-compatible high dynamic range imaging : acquisition, display and compression. Doctoral thesis, Nanyang Technological University, Singapore. http://hdl.handle.net/10356/75404 10.32657/10356/75404 en 186 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering Wei, Zhe Backward-compatible high dynamic range imaging : acquisition, display and compression |
| description |
High dynamic range imaging (HDR) techniques can provide excellent visual experience which is comparable to the human visual system, thus it is supposed to be the future of imaging techniques. However, because of relative slow pavement in development and deployment of HDR display technology, most consumers, who are only equipped with conventional low dynamic range (LDR) displays cannot benefit from the new imaging technology because the HDR images are not directly viewable on LDR displays. Backward-compatible solutions are needed so that LDR consumers can gradually accept and upgrade legacy LDR imaging techniques to HDR ones. In this thesis, we provide three backward-compatible solutions in the acquisition, display and compression stages of the high dynamic range imaging pipeline. In the acquisition stage, we propose a detail-enhanced exposure fusion algorithm to directly acquire an HDR-like LDR image by merging a bracket of differently exposed LDR images. The acquired LDR image, which preserves information in brightest and darkest regions as well as the fine-details of the scene, can provide superior HDR-like visual experience without generating intermediate HDR images. In the display stage, we propose an efficient saliency-aware tone mapping operator to reproduce the HDR image on conventional LDR displays. Our method takes the overall brightness, contrast and details preservation and visual attention into consideration. We manage to view HDR images on LDR displays without degrading its visual quality too much. In the compression stage, we propose a two-layer local inverse tone mapping algorithm to estimate an HDR image from its locally tone-mapped version. And we successfully adopt it in HDR image scalable coding to improve the coding efficiency for efficient backward-compatible distribution of HDR images. In conclusion, our backward-compatible solutions enable LDR consumers to enjoy superior visual experience provided by HDR imaging techniques. Our work should be helpful for transition from LDR imaging techniques to HDR ones. |
| author2 |
Wen Changyun |
| author_facet |
Wen Changyun Wei, Zhe |
| format |
Theses and Dissertations |
| author |
Wei, Zhe |
| author_sort |
Wei, Zhe |
| title |
Backward-compatible high dynamic range imaging : acquisition, display and compression |
| title_short |
Backward-compatible high dynamic range imaging : acquisition, display and compression |
| title_full |
Backward-compatible high dynamic range imaging : acquisition, display and compression |
| title_fullStr |
Backward-compatible high dynamic range imaging : acquisition, display and compression |
| title_full_unstemmed |
Backward-compatible high dynamic range imaging : acquisition, display and compression |
| title_sort |
backward-compatible high dynamic range imaging : acquisition, display and compression |
| publishDate |
2018 |
| url |
http://hdl.handle.net/10356/75404 |
| _version_ |
1772826488275468288 |