Human observers can perceive their direction of heading with a precision of about a degree. Several computational models of the processes underpinning the perception of heading have been proposed. In the present study we set out to assess which of four candidate models best captured human performance; the four models we selected reflected key differences in terms of approach and methods to modelling optic flow processing to recover movement parameters. We first generated a performance profile for human observers by measuring how performance changed as we systematically manipulated both the quantity (number of dots in the stimulus per frame) and quality (amount of 2D directional noise) of the flow field information. We then generated compara...
In most models of heading from optic flow a rigid environment is assumed, yet humans often navigate ...
121 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1993.Previous research on heading ...
It is usually assumed that the human visual system is most sensitive to the velocity of motion at th...
Human observers can perceive their direction of heading with a precision of about a degree. Several ...
Human observers can perceive their direction of heading with a precision of about a degree. Several ...
AbstractWe developed a new computational model of human heading judgement from retinal flow. The mod...
AbstractSeveral aspects of the viewing situation affect the ability to determine heading from optica...
In a companion study we have investigated the pattern of dependence of human heading estimation on t...
Previous studies of heading perception suggest that human observers employ spatiotemporal pooling to...
textabstractThe retinal flow during normal locomotion contains components due to rotation and transl...
In the current study, we explored observers ’ use of two distinct analyses for determining their dir...
Humans are usually accurate when estimating heading or path from optic flow, even in the presence of...
Previous studies of heading perception suggest that human observers employ spatiotemporal pooling to...
During locomotion humans can judge where they are heading relative to the scene and the movement of ...
We have recently suggested that neural flow parsing mechanisms act to subtract global optic flow con...
In most models of heading from optic flow a rigid environment is assumed, yet humans often navigate ...
121 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1993.Previous research on heading ...
It is usually assumed that the human visual system is most sensitive to the velocity of motion at th...
Human observers can perceive their direction of heading with a precision of about a degree. Several ...
Human observers can perceive their direction of heading with a precision of about a degree. Several ...
AbstractWe developed a new computational model of human heading judgement from retinal flow. The mod...
AbstractSeveral aspects of the viewing situation affect the ability to determine heading from optica...
In a companion study we have investigated the pattern of dependence of human heading estimation on t...
Previous studies of heading perception suggest that human observers employ spatiotemporal pooling to...
textabstractThe retinal flow during normal locomotion contains components due to rotation and transl...
In the current study, we explored observers ’ use of two distinct analyses for determining their dir...
Humans are usually accurate when estimating heading or path from optic flow, even in the presence of...
Previous studies of heading perception suggest that human observers employ spatiotemporal pooling to...
During locomotion humans can judge where they are heading relative to the scene and the movement of ...
We have recently suggested that neural flow parsing mechanisms act to subtract global optic flow con...
In most models of heading from optic flow a rigid environment is assumed, yet humans often navigate ...
121 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1993.Previous research on heading ...
It is usually assumed that the human visual system is most sensitive to the velocity of motion at th...