Sensors (Nov 2024)

Instant-SFH: Non-Iterative Sparse Fourier Holograms Using Perlin Noise

  • David Li,
  • Susmija Jabbireddy,
  • Yang Zhang,
  • Christopher Metzler,
  • Amitabh Varshney

DOI
https://doi.org/10.3390/s24227358
Journal volume & issue
Vol. 24, no. 22
p. 7358

Abstract

Read online

Holographic displays are an upcoming technology for AR and VR applications, with the ability to show 3D content with accurate depth cues, including accommodation and motion parallax. Recent research reveals that only a fraction of holographic pixels are needed to display images with high fidelity, improving energy efficiency in future holographic displays. However, the existing iterative method for computing sparse amplitude and phase layouts does not run in real time; instead, it takes hundreds of milliseconds to render an image into a sparse hologram. In this paper, we present a non-iterative amplitude and phase computation for sparse Fourier holograms that uses Perlin noise in the image–plane phase. We conduct simulated and optical experiments. Compared to the Gaussian-weighted Gerchberg–Saxton method, our method achieves a run time improvement of over 600 times while producing a nearly equal PSNR and SSIM quality. The real-time performance of our method enables the presentation of dynamic content crucial to AR and VR applications, such as video streaming and interactive visualization, on holographic displays.

Keywords