© 2018 IEEE. We present a method for inferring a 4D light field of a hidden scene from 2D shadows cast by a known occluder on a diffuse wall. We do this by determining how light naturally reflected off surfaces in the hidden scene interacts with the occluder. By modeling the light transport as a linear system, and incorporating prior knowledge about light field structures, we can invert the system to recover the hidden scene. We demonstrate results of our inference method across simulations and experiments with different types of occluders. For instance, using the shadow cast by a real house plant, we are able to recover low resolution light fields with different levels of texture and parallax complexity. We provide two experimental results...
We propose a relighting method for outdoor images. Our method mainly focuses on predicting cast shad...
The ability to see around corners, i.e., recover details of a hidden scene from its reflections in t...
In this chapter we describe a new technique for computing diffuse light transfer and show how it can...
© 2018 IEEE. We present a method for inferring a 4D light field of a hidden scene from 2D shadows ca...
This master thesis will be develop at CSAL-MIT department in the research group of Professor Antonio...
Abstract — In this paper, we introduce a method for recovering an illu-mination distribution of a sc...
We describe a unified representation of occluders in light transport and photography using shield fi...
ACPR 2013 : 2nd IAPR Asian Conference on Pattern Recognition , Nov 5-8, 2013 , Okinawa, JapanThis pa...
In this paper, we propose a novel framework to jointly recover the illumination environment and an e...
The cast shadows in an image provide important information about illumination and geometry. In this ...
The cast shadows in an image provide important information about illumination and geometry. In this ...
The effects produced in an image by cast shadows can be quite complex, es-pecially when light comes ...
In computer vision for object recognition or autonomous navigation, shadows are a frequent occurrenc...
International audienceThis paper presents a new approach to compute plausible soft shadows for compl...
In computer vision for object recognition or navigation, shadows are a frequent occurrence. However,...
We propose a relighting method for outdoor images. Our method mainly focuses on predicting cast shad...
The ability to see around corners, i.e., recover details of a hidden scene from its reflections in t...
In this chapter we describe a new technique for computing diffuse light transfer and show how it can...
© 2018 IEEE. We present a method for inferring a 4D light field of a hidden scene from 2D shadows ca...
This master thesis will be develop at CSAL-MIT department in the research group of Professor Antonio...
Abstract — In this paper, we introduce a method for recovering an illu-mination distribution of a sc...
We describe a unified representation of occluders in light transport and photography using shield fi...
ACPR 2013 : 2nd IAPR Asian Conference on Pattern Recognition , Nov 5-8, 2013 , Okinawa, JapanThis pa...
In this paper, we propose a novel framework to jointly recover the illumination environment and an e...
The cast shadows in an image provide important information about illumination and geometry. In this ...
The cast shadows in an image provide important information about illumination and geometry. In this ...
The effects produced in an image by cast shadows can be quite complex, es-pecially when light comes ...
In computer vision for object recognition or autonomous navigation, shadows are a frequent occurrenc...
International audienceThis paper presents a new approach to compute plausible soft shadows for compl...
In computer vision for object recognition or navigation, shadows are a frequent occurrence. However,...
We propose a relighting method for outdoor images. Our method mainly focuses on predicting cast shad...
The ability to see around corners, i.e., recover details of a hidden scene from its reflections in t...
In this chapter we describe a new technique for computing diffuse light transfer and show how it can...