Methods to enhance the dynamic range of digital cameras
The purpose of this report is to address the problems faced by digital cameras today and to seek possible methods to enhance the dynamic range of digital cameras. High dynamic range (HDR) imaging is one of the major challenges faced by digital cameras today. Although, digital cameras today have seen...
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Nanyang Technological University
2019
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sg-ntu-dr.10356-1365112023-07-07T15:56:10Z Methods to enhance the dynamic range of digital cameras Yeo, Wilson Han Xiang Kantisara Pita Ng Beng Koon School of Electrical and Electronic Engineering EBKNg@ntu.edu.sg Engineering Engineering::Electrical and electronic engineering The purpose of this report is to address the problems faced by digital cameras today and to seek possible methods to enhance the dynamic range of digital cameras. High dynamic range (HDR) imaging is one of the major challenges faced by digital cameras today. Although, digital cameras today have seen major improvements in their dynamic range, it is still inevitable that HDR images are required to portray the entire details of a scene that exceeds the dynamic range that of the digital camera. Therefore, this report will investigate and analyze images obtained, in MatLab environment. The analysis involves obtaining a response function of the RGB (Red, Green & Blue) channels between HDR image and non-HDR images. Through this experiment, it is observed that low intensity values ranging from 0 – 25 experienced an exponential increase in its pixel intensity value from a non-HDR to an HDR image. However, this is not true at higher intensity values. As intensity increases from 25 to 255, the rate of change in pixel intensity value is almost at a constant. This response function can then be used to search for possible methods to improve the dynamic range of digital cameras. Bachelor of Engineering (Electrical and Electronic Engineering) 2019-12-20T08:44:27Z 2019-12-20T08:44:27Z 2019 Final Year Project (FYP) https://hdl.handle.net/10356/136511 en application/pdf Nanyang Technological University |
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Engineering Engineering::Electrical and electronic engineering Yeo, Wilson Han Xiang Methods to enhance the dynamic range of digital cameras |
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The purpose of this report is to address the problems faced by digital cameras today and to seek possible methods to enhance the dynamic range of digital cameras. High dynamic range (HDR) imaging is one of the major challenges faced by digital cameras today. Although, digital cameras today have seen major improvements in their dynamic range, it is still inevitable that HDR images are required to portray the entire details of a scene that exceeds the dynamic range that of the digital camera. Therefore, this report will investigate and analyze images obtained, in MatLab environment. The analysis involves obtaining a response function of the RGB (Red, Green & Blue) channels between HDR image and non-HDR images. Through this experiment, it is observed that low intensity values ranging from 0 – 25 experienced an exponential increase in its pixel intensity value from a non-HDR to an HDR image. However, this is not true at higher intensity values. As intensity increases from 25 to 255, the rate of change in pixel intensity value is almost at a constant. This response function can then be used to search for possible methods to improve the dynamic range of digital cameras. |
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Kantisara Pita |
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Kantisara Pita Yeo, Wilson Han Xiang |
| format |
Final Year Project |
| author |
Yeo, Wilson Han Xiang |
| author_sort |
Yeo, Wilson Han Xiang |
| title |
Methods to enhance the dynamic range of digital cameras |
| title_short |
Methods to enhance the dynamic range of digital cameras |
| title_full |
Methods to enhance the dynamic range of digital cameras |
| title_fullStr |
Methods to enhance the dynamic range of digital cameras |
| title_full_unstemmed |
Methods to enhance the dynamic range of digital cameras |
| title_sort |
methods to enhance the dynamic range of digital cameras |
| publisher |
Nanyang Technological University |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/136511 |
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1772827475787644928 |