Amortizing Samples in Physics-Based Inverse Rendering Using ReSTIR

YU-CHEN Wang, Chris Wyman, Lifan Wu, Shuang Zhao
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Abstract

Recently, great progress has been made in physics-based differentiable rendering. Existing differentiable rendering techniques typically focus on static scenes, but during inverse rendering---a key application for differentiable rendering---the scene is updated dynamically by each gradient step. In this paper, we take a first step to leverage temporal data in the context of inverse direct illumination. By adopting reservoir-based spatiotemporal resampled importance resampling (ReSTIR), we introduce new Monte Carlo estimators for both interior and boundary components of differential direct illumination integrals. We also integrate ReSTIR with antithetic sampling to further improve its effectiveness. At equal frame time, our methods produce gradient estimates with up to 100× lower relative error than baseline methods. Additionally, we propose an inverse-rendering pipeline that incorporates these estimators and provides reconstructions with up to 20× lower error.
使用 ReSTIR 在基于物理的反渲染中摊销样本
近年来,基于物理的可微分渲染取得了很大的进展。现有的可微分渲染技术通常侧重于静态场景,但在逆向渲染中——可微分渲染的一个关键应用——场景通过每个梯度步骤动态更新。在本文中,我们迈出了第一步,在反向直接照明的背景下利用时间数据。采用基于储层的时空重采样重要性重采样(ReSTIR)方法,对微分直接照明积分的内部分量和边界分量引入新的蒙特卡罗估计。我们还将restr与反相采样相结合,进一步提高其有效性。在相同的帧时间下,我们的方法产生的梯度估计比基线方法的相对误差低100倍。此外,我们提出了一个包含这些估计器的反向渲染管道,并提供了高达20倍的低误差重建。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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