Under typical viewing conditions, human observers readily distinguish between materials such as silk, marmalade, or granite, an achievement of the visual system that is poorly understood. Recognizing transparent materials is especially challenging. Previous work on the perception of transparency has focused on objects composed of flat, infinitely thin filters. In the experiments reported here, we considered thick transparent objects, such as ice cubes, which are irregular in shape and can vary in refractive index. An important part of the visual evidence signaling the presence of such objects is distortions in the perceived shape of other objects in the scene. We propose a new class of visual cues derived from the distortion field induced b...
The human visual system is remarkably good at decomposing local and global deformations in the flow ...
International audienceIn this work we study the perception of suprathreshold translucency difference...
International audienceRecovering depth information from a single still image is an important problem...
Under typical viewing conditions, human observers readily distinguish between materials such as silk...
Almost everything that we think we know about the perception of transparent materials is derived fro...
Many materials that we commonly encounter, such as ice, marmalade and wax, transmit some proportion ...
Many materials that we commonly encounter, such as ice, marmalade and wax, transmit some proportion ...
When light strikes a translucent material (such as wax, milk or fruit flesh), it enters the body of ...
Many commonly occurring substances are somewhat translucent (e.g. wax, jade, fruit-flesh, and cheese...
When light strikes a translucent material (such as wax, milk or fruit flesh), it enters the body of ...
When judging the optical properties of a translucent object, humans often look at sharp geometric fe...
Many common materials, including fruit, wax and human skin, are somewhat translucent. What makes an ...
Many materials — such as wax, glass, fruit flesh, and human skin — transmit as well as reflect light...
The human visual system is remarkably good at decomposing local and global deformations in the flow ...
The human visual system is remarkably good at decomposing local and global deformations in the flow ...
International audienceIn this work we study the perception of suprathreshold translucency difference...
International audienceRecovering depth information from a single still image is an important problem...
Under typical viewing conditions, human observers readily distinguish between materials such as silk...
Almost everything that we think we know about the perception of transparent materials is derived fro...
Many materials that we commonly encounter, such as ice, marmalade and wax, transmit some proportion ...
Many materials that we commonly encounter, such as ice, marmalade and wax, transmit some proportion ...
When light strikes a translucent material (such as wax, milk or fruit flesh), it enters the body of ...
Many commonly occurring substances are somewhat translucent (e.g. wax, jade, fruit-flesh, and cheese...
When light strikes a translucent material (such as wax, milk or fruit flesh), it enters the body of ...
When judging the optical properties of a translucent object, humans often look at sharp geometric fe...
Many common materials, including fruit, wax and human skin, are somewhat translucent. What makes an ...
Many materials — such as wax, glass, fruit flesh, and human skin — transmit as well as reflect light...
The human visual system is remarkably good at decomposing local and global deformations in the flow ...
The human visual system is remarkably good at decomposing local and global deformations in the flow ...
International audienceIn this work we study the perception of suprathreshold translucency difference...
International audienceRecovering depth information from a single still image is an important problem...