High dynamic range (HDR) imaging for camera-in-the-loop computer-generated holography (CGH) using spatially varying pixel exposures

Andrew Kadis; Youchao Wang; Fan Yang; Ralf Mouthaan; Benjamin Wetherfield; Daoming Dong; Timothy Wilkinson

doi:10.1117/12.2607650

3 March 2022 High dynamic range (HDR) imaging for camera-in-the-loop computer-generated holography (CGH) using spatially varying pixel exposures

Andrew Kadis, Youchao Wang, Fan Yang, Ralf Mouthaan, Benjamin Wetherfield, Daoming Dong, Timothy Wilkinson

Author Affiliations +

Proceedings Volume 12026, Practical Holography XXXVI: Displays, Materials, and Applications; 120260A (2022) https://doi.org/10.1117/12.2607650
Event: SPIE OPTO, 2022, San Francisco, California, United States

Abstract

A traditional limitation of holographic displays has been their image quality. Recent advances in computer-generated holography using a camera-in-the-loop (CITL) approach have demonstrated that these issues can be overcome to improve image-fidelity by treating the system as a negative feedback control loop.

Such an approach demands high bit-depth camera sensors to realise high system bandwidth. Here, we explore boosting the dynamic-range of a given imaging sensor by using a spatially varying exposure (SVE) approach. The exposure levels of adjacent pixels are spatially-multiplexed using an appropriate optical mask and the full image reconstructed from the sampled SVE image, resulting in a boosted dynamic-range with only a small sacrifice in resolution.

This technique is well-tailored to CITL requirements as it promises to boost the dynamic range of the imaging sensor in a single image acquisition. We present our findings on the viability of this approach within the context of CGH displays.

Conference Presentation

Citation Download Citation

Andrew Kadis, Youchao Wang, Fan Yang, Ralf Mouthaan, Benjamin Wetherfield, Daoming Dong, and Timothy Wilkinson "High dynamic range (HDR) imaging for camera-in-the-loop computer-generated holography (CGH) using spatially varying pixel exposures", Proc. SPIE 12026, Practical Holography XXXVI: Displays, Materials, and Applications, 120260A (3 March 2022); https://doi.org/10.1117/12.2607650

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