AbstractMost research on human visual recognition focuses on solid objects, whose identity is defined primarily by shape. In daily life, however, we often encounter materials that have no specific form, including liquids whose shape changes dynamically over time. Here we show that human observers can recognize liquids and their viscosities solely from image motion information. Using a two-dimensional array of noise patches, we presented observers with motion vector fields derived from diverse computer rendered scenes of liquid flow. Our observers perceived liquid-like materials in the noise-based motion fields, and could judge the simulated viscosity with surprising accuracy, given total absence of non-motion information including form. We ...
As observers move through the environment or shift their direction of gaze, the world moves past the...
Visual motion computation is challenging under real-world conditions due to continuous contextual ch...
In this paper, studies into the tactual perception of two liquid material properties, viscosity and ...
AbstractMost research on human visual recognition focuses on solid objects, whose identity is define...
International audiencePerceptual constancy—identifying surfaces and objects across large image chang...
Visually identifying and estimating properties of materials is critical for many tasks, from reachin...
Here, we test whether the perception of liquids is based on abstract, physics-based representations....
Visually inferring material properties is crucial for many tasks, yet poses significant computationa...
Fluids and other deformable materials have highly mutable shapes, which are visibly influenced by bo...
We have great understanding of objects and materials we encounter in everyday life. This helps us to...
Many critical perceptual judgments, from telling whether fruit is ripe to determining whether the gr...
SummaryMany critical perceptual judgments, from telling whether fruit is ripe to determining whether...
Cataloged from PDF version of article.Many critical perceptual judgments, from telling whether fruit...
Humans can easily describe, imagine, and, crucially, predict a wide variety of behaviors of liquids-...
Summary: The neural and computational mechanisms underlying visual motion perception have been exten...
As observers move through the environment or shift their direction of gaze, the world moves past the...
Visual motion computation is challenging under real-world conditions due to continuous contextual ch...
In this paper, studies into the tactual perception of two liquid material properties, viscosity and ...
AbstractMost research on human visual recognition focuses on solid objects, whose identity is define...
International audiencePerceptual constancy—identifying surfaces and objects across large image chang...
Visually identifying and estimating properties of materials is critical for many tasks, from reachin...
Here, we test whether the perception of liquids is based on abstract, physics-based representations....
Visually inferring material properties is crucial for many tasks, yet poses significant computationa...
Fluids and other deformable materials have highly mutable shapes, which are visibly influenced by bo...
We have great understanding of objects and materials we encounter in everyday life. This helps us to...
Many critical perceptual judgments, from telling whether fruit is ripe to determining whether the gr...
SummaryMany critical perceptual judgments, from telling whether fruit is ripe to determining whether...
Cataloged from PDF version of article.Many critical perceptual judgments, from telling whether fruit...
Humans can easily describe, imagine, and, crucially, predict a wide variety of behaviors of liquids-...
Summary: The neural and computational mechanisms underlying visual motion perception have been exten...
As observers move through the environment or shift their direction of gaze, the world moves past the...
Visual motion computation is challenging under real-world conditions due to continuous contextual ch...
In this paper, studies into the tactual perception of two liquid material properties, viscosity and ...