Computer Graphics Laboratory ETH Zurich

ETH

Adaptive Polynomial Rendering

B. Moon, S. McDonagh, K. Mitchell, M. Gross

Proceedings of ACM SIGGRAPH 2016 (Anaheim, July 24 - July 28, 2016), pp.
[Abstract] [BibTeX]

Abstract

In this paper, we propose a new adaptive rendering method to improve the performance of Monte Carlo ray tracing, by reducing noise contained in rendered images while preserving high-frequency edges. Our method locally approximates an image with polynomial functions and the optimal order of each polynomial function is estimated so that our reconstruction error can be minimized. To robustly estimate the optimal order, we propose a multi- stage error estimation process that iteratively estimates our reconstruction error. In addition, we present an energy-preserving outlier removal technique to remove spike noise without causing noticeable energy loss in our reconstruction result. Also, we adaptively allocate additional ray samples to high error regions guided by our error estimation. We demonstrate that our approach outperforms state-of-the-art methods by controlling the tradeoff between reconstruction bias and variance through locally defining our polynomial order, even without need for filtering ban.

@ARTICLE {Moo16a,
author = "Moon, B., McDonagh, S., Mitchell, K., Gross, M.",
title = "Adaptive Polynomial Rendering",
journal = "ACM Transactions on Graphics (TOG) - Proceedings of ACM SIGGRAPH 2016",
year = "2016",
volume = "35",
number = "4"
}
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