A neural model is developed to explain how humans can approach a goal object on foot while steering around obstacles to avoid collisions in a cluttered environment. The model uses optic flow from a 3D virtual reality environment to determine the position of objects based on motion discotinuities, and computes heading direction, or the direction of self-motion, from global optic flow. The cortical representation of heading interacts with the representations of a goal and obstacles such that the goal acts as an attractor of heading, while obstacles act as repellers. In addition the model maintains fixation on the goal object by generating smooth pursuit eye movements. Eye rotations can distort the optic flow field, complicating heading percep...
Smooth pursuit eye movements are eye rotations that are used to maintain fixation on a moving target...
Moringing Talk Session: Perception and action: LocomotionAlthough previous studies have shown that o...
For self-driving vehicles, aerial drones, and autonomous robots to be successfully deployed in the r...
A neural model is developed to explain how humans can approach a goal object on foot while steering ...
Visually guided navigation through a cluttered natural scene is a challenging problem that animals a...
Animals avoid obstacles and approach goals in novel cluttered environments using visual information,...
Cells in the dorsal medial superior temporal cortex (MSTd) process optic flow generated by self-moti...
Abstract. Using a biologically-inspired model, we show how successful route selection through a clut...
The authors investigated the dynamics of steering and obstacle avoidance, with the aim of predicting...
This paper describes a self-organizing neural network architecture that transforms optic now informa...
The brain regions required for judging heading direction and actively steering towards a goal could ...
We present a model for recovering the direction of heading of an observer who is moving relative t...
There has long been a debate on which of the following two strategies we adopt while we are steering...
We propose a biologically plausible neural network for trajectory formation and obstacle avoidance. ...
Animals use vision to traverse novel cluttered environments with apparent ease. Evidence suggests th...
Smooth pursuit eye movements are eye rotations that are used to maintain fixation on a moving target...
Moringing Talk Session: Perception and action: LocomotionAlthough previous studies have shown that o...
For self-driving vehicles, aerial drones, and autonomous robots to be successfully deployed in the r...
A neural model is developed to explain how humans can approach a goal object on foot while steering ...
Visually guided navigation through a cluttered natural scene is a challenging problem that animals a...
Animals avoid obstacles and approach goals in novel cluttered environments using visual information,...
Cells in the dorsal medial superior temporal cortex (MSTd) process optic flow generated by self-moti...
Abstract. Using a biologically-inspired model, we show how successful route selection through a clut...
The authors investigated the dynamics of steering and obstacle avoidance, with the aim of predicting...
This paper describes a self-organizing neural network architecture that transforms optic now informa...
The brain regions required for judging heading direction and actively steering towards a goal could ...
We present a model for recovering the direction of heading of an observer who is moving relative t...
There has long been a debate on which of the following two strategies we adopt while we are steering...
We propose a biologically plausible neural network for trajectory formation and obstacle avoidance. ...
Animals use vision to traverse novel cluttered environments with apparent ease. Evidence suggests th...
Smooth pursuit eye movements are eye rotations that are used to maintain fixation on a moving target...
Moringing Talk Session: Perception and action: LocomotionAlthough previous studies have shown that o...
For self-driving vehicles, aerial drones, and autonomous robots to be successfully deployed in the r...