Doppler Time-of-Flight Rendering
Juhyeon KimWojciech JaroszIoannis GkioulekasAdithya Pediredla
ACM Trans. Graph. (2023)
teaser

We introduce Doppler time-of-flight (D-ToF) rendering, an extension of ToF rendering for dynamic scenes, with applications in simulating D-ToF cameras. D-ToF cameras use high-frequency modulation of illumination and exposure, and measure the Doppler frequency shift to compute the radial velocity of dynamic objects. The time-varying scene geometry and high-frequency modulation functions used in such cameras make it challenging to accurately and efficiently simulate their measurements with existing ToF rendering algorithms. We overcome these challenges in a twofold manner: To achieve accuracy, we derive path integral expressions for D-ToF measurements under global illumination and form unbiased Monte Carlo estimates of these integrals. To achieve efficiency, we develop a tailored time-path sampling technique that combines antithetic time sampling with correlated path sampling. We show experimentally that our sampling technique achieves up to two orders of magnitude lower variance compared to naive time-path sampling. We provide an open source simulator that serves as a digital twin for D-ToF imaging systems, allowing imaging researchers, for the first time, to investigate the impact of modulation functions, material properties, and global illumination on D-ToF imaging performance.

Juhyeon Kim, Wojciech Jarosz, Ioannis Gkioulekas, Adithya Pediredla (2023). Doppler Time-of-Flight Rendering. ACM Trans. Graph..

@article{Teh:2024:AALD,
author = {Juhyeon Kim and Wojciech Jarosz and Ioannis Gkioulekas and Adithya Pediredla},
title = {Doppler Time-of-Flight Rendering},
journal = {ACM Trans. Graph.},
year = {2023},
publisher = {ACM},
address = {New York, NY, USA},
}