Add to ORKGThe measurement and use of visual motion is one of the most fundamental abilities of biological vision systems, serving many essential functions. For example, a sudden movement in the scene might indicate an approaching predator or a desirable prey. The rapid expansion of features in the visual field can signal an object about to collide with the observer. Discontinuities in motion often occur at the locations of object boundaries and can be used to carve up the scene into distinct objects. Motion signals provide input to centers controlling eye movements, allowing objects of interest to be tracked through the scene. Relative movement can be used to infer the three-dimensional (3-D) structure and motion of object surfaces, and the movement ...
The transmission of visual signals from eye to brain involves considerable delays in conduction and ...
This paper considers the problem of designing computational models of the primitives that are at the...
Egelhaaf M, Kern R, Lindemann JP. Motion as a source of environmental information: a fresh view on b...
This paper reviews a number of aspects of visual motion analysis in biological systems from a comp...
The analysis of visual motion divides naturally into two stages: the first is the measurement of mot...
Motion information is required for the solution of many complex tasks of the visual system such as d...
Over the past decade it has become increasingly clear that to understand the brain, we must study ...
Motion information is required for the solution of many complex tasks of the visual system such as d...
Copyright © 2011 Jan D. Bouecke et al. This is an open access article distributed under the Creative...
Thesis (Ph. D.)--University of Rochester. Dept. of Computer Science, 1989. Simultaneously published...
Computing motion on the basis of the time-varying image intensity is a difficult problem for both ar...
Motion vision provides essential cues for navigation and course control as well as for mate, prey, o...
Motion is a fundamental property estimated by human sensory-perception. When visual shapes and patte...
Computing motion on the basis of the time-varying image intensity is a difficult problem for both ar...
The transmission of visual signals from eye to brain involves considerable delays in conduction and ...
The transmission of visual signals from eye to brain involves considerable delays in conduction and ...
This paper considers the problem of designing computational models of the primitives that are at the...
Egelhaaf M, Kern R, Lindemann JP. Motion as a source of environmental information: a fresh view on b...
This paper reviews a number of aspects of visual motion analysis in biological systems from a comp...
The analysis of visual motion divides naturally into two stages: the first is the measurement of mot...
Motion information is required for the solution of many complex tasks of the visual system such as d...
Over the past decade it has become increasingly clear that to understand the brain, we must study ...
Motion information is required for the solution of many complex tasks of the visual system such as d...
Copyright © 2011 Jan D. Bouecke et al. This is an open access article distributed under the Creative...
Thesis (Ph. D.)--University of Rochester. Dept. of Computer Science, 1989. Simultaneously published...
Computing motion on the basis of the time-varying image intensity is a difficult problem for both ar...
Motion vision provides essential cues for navigation and course control as well as for mate, prey, o...
Motion is a fundamental property estimated by human sensory-perception. When visual shapes and patte...
Computing motion on the basis of the time-varying image intensity is a difficult problem for both ar...
The transmission of visual signals from eye to brain involves considerable delays in conduction and ...
The transmission of visual signals from eye to brain involves considerable delays in conduction and ...
This paper considers the problem of designing computational models of the primitives that are at the...
Egelhaaf M, Kern R, Lindemann JP. Motion as a source of environmental information: a fresh view on b...