Add to ORKGInternational audienceWe present Metropolis Instant Radiosity (MIR), an unbiased algorithm to solve the Light Transport problem. MIR is a hybrid technique which consists in representing the incoming radiance field by a set of Virtual Point Lights (VPLs) and in computing the response of all sensors in the scene (i.e. camera captors) by accumulating their contributions. In contrast to other similar approaches, we propose to sample the VPLs with an innovative Multiple-try Metropolis-Hastings (MTMH) Algorithm: the goal is to build an efficient, aggressive, and unconditionally robust variance reduction method that works well regardless of the scene layout. Finally, we present a fast ray tracing implementation using MIR and show how our complete ...
Photorealistic image synthesis can be described by a path integral. This integral is numerically app...
Abstract: In this paper a method for combining Ordinary Monte Carlo (OMC) and Markov Chain...
Computer-generated imagery has become a central point in large and quickly growing areas such as com...
International audienceThis paper presents a new sampling strategy to achieve interactive global illu...
We present a new Monte Carlo method for solving the light transport problem, inspired by the Metropo...
International audienceThe human visual system is sensitive to relative differences in luminance, but...
Metropolis Light Transport is an unbiased and robust Monte Carlo algorithm for solving global illumi...
We present Metropolis Photon Sampling (MPS), a visual importance-driven algorithm for populating pho...
Instant Radiosity and its derivatives are interactive methods for efficiently estimating global (ind...
Global illumination algorithms provide a way to model the different light transport phenomena seen i...
In this paper we show how Metropolis Light Transport can be extended both in the underlying theoreti...
This paper presents an improvement to the stochastic progressive photon mapping (SPPM), a method for...
We propose a new adaptive algorithm for determining virtual point lights (VPL) in the scope of real-...
The Metropolis Light Transport algorithm generates physically based images with superior image quali...
95 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2008.This dissertation investigates...
Photorealistic image synthesis can be described by a path integral. This integral is numerically app...
Abstract: In this paper a method for combining Ordinary Monte Carlo (OMC) and Markov Chain...
Computer-generated imagery has become a central point in large and quickly growing areas such as com...
International audienceThis paper presents a new sampling strategy to achieve interactive global illu...
We present a new Monte Carlo method for solving the light transport problem, inspired by the Metropo...
International audienceThe human visual system is sensitive to relative differences in luminance, but...
Metropolis Light Transport is an unbiased and robust Monte Carlo algorithm for solving global illumi...
We present Metropolis Photon Sampling (MPS), a visual importance-driven algorithm for populating pho...
Instant Radiosity and its derivatives are interactive methods for efficiently estimating global (ind...
Global illumination algorithms provide a way to model the different light transport phenomena seen i...
In this paper we show how Metropolis Light Transport can be extended both in the underlying theoreti...
This paper presents an improvement to the stochastic progressive photon mapping (SPPM), a method for...
We propose a new adaptive algorithm for determining virtual point lights (VPL) in the scope of real-...
The Metropolis Light Transport algorithm generates physically based images with superior image quali...
95 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2008.This dissertation investigates...
Photorealistic image synthesis can be described by a path integral. This integral is numerically app...
Abstract: In this paper a method for combining Ordinary Monte Carlo (OMC) and Markov Chain...
Computer-generated imagery has become a central point in large and quickly growing areas such as com...