Design and prototypical implementation of a radiometrically calibrated light source to perform dark-light adaptation measurements of the human eye
| Thesis title in Czech: | Návrh a prototypová implementace radiometricky kalibrovaného světelného zdroje pro provádění adaptačních měření lidského oka na tmavé světlo |
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| Thesis title in English: | Design and prototypical implementation of a radiometrically calibrated light source to perform dark-light adaptation measurements of the human eye |
| Key words: | adapatace oka na tmu|radiometrie|radiometric self-calibration|digitální fotoaparát|lidské oko |
| English key words: | dark-light adaptation|radiometry|rediometric self-calibration|camera|human eye |
| Academic year of topic announcement: | 2022/2023 |
| Thesis type: | Bachelor's thesis |
| Thesis language: | angličtina |
| Department: | Department of Software and Computer Science Education (32-KSVI) |
| Supervisor: | Dipl.-Ing. Thomas Klaus Nindel, Ph.D. |
| Author: | hidden - assigned and confirmed by the Study Dept. |
| Date of registration: | 23.02.2023 |
| Date of assignment: | 27.02.2023 |
| Confirmed by Study dept. on: | 03.03.2023 |
| Date and time of defence: | 07.09.2023 09:00 |
| Date of electronic submission: | 20.07.2023 |
| Date of submission of printed version: | 20.07.2023 |
| Date of proceeded defence: | 07.09.2023 |
| Opponents: | Mgr. Matúš Goliaš |
| Guidelines |
| The main result of the thesis should be a temporal model of the human eye's dark-light adaptation, especially for the initial time period of ~30s. The student will conduct experiments using a suitable measurement apparatus that needs to be calibrated using radiometric measurements. The student can either design her own measurement apparatus, or find a suitable setup in the existing literature. The application of the model to a sequence of images, e.g. obtained from a physically-based renderer, should be used to illustrate the plausibility of the obtained results. |
| References |
| Matt Pharr, Wenzel Jakob, and Greg Humphreys. 2016. Physically Based Rendering: From Theory to Implementation (3rd ed.). Morgan Kaufmann Publishers Inc., San Francisco, CA, USA.
Luís Paulo Santos, Patrick Ledda, Alan Chalmers. 2004. A local model of eye adaptation for high dynamic range images Shrinivas Pundlik1 and Gang Luo1, 2019. Preliminary Evaluation of a Mobile Device for Dark Adaptation Measurement , translational vision science & technology |