This paper presents a novel biologically-inspired approach for tackling the problem of robot homing. In our method the only information employed is optical flow. Optical flow, which is not a property of landmarks like colour, shape, and size but a property of the camera motion, is used for localising an autonomous robot in a priori unknown environment. Our method exploits the optical flow ‘fingerprint’ of landmarks caused by the motion of the robot in the environment. For this purpose, we have developed a training algorithm that estimates the probability of observing the same landmark from varying distances and velocities. Our method promises to be computationally efficient and inexpensive. The simulation results we present show the validit...
A fundamental capability of any navigation system is the perception of potential contact with surfac...
Caleb Hulbert B.S., Cornell University, 2016 Biologically Inspired Autonomous Robotic Navigation usi...
While mobile robots and walking insects can use proprioceptive information (specialized receptors in...
In this paper a novel biologically inspired method is addressed for the robot homing problem where a...
Navigation is at the heart of today’s mobile robotic systems. The use of landmarks for the guidance ...
Vardy A, Möller R. Biologically plausible visual homing methods based on optical flow techniques. Co...
Many animals, including insects, successfully engage in visual homing. We describe a system that all...
Visual homing describes the ability of a robot to autonomously return to its starting position along...
Abstract — A biologically-inspired approach to robot route following is presented. Snapshot images o...
We propose a novel, vision-based method for robot homing, the problem of computing a route so that a...
The Problem: The aim of this work is to develop algorithms that will be used for robust visual navig...
International audienceFlying insects and birds are able to fly smartly in an unpredictable environme...
Motion has been examined in biology to be a critical component for obstacle avoidance and navigation...
We present a fast and efficient homing algorithm based on Fourier transformed panoramic images. By c...
This paper discusses the implementation of insect-inspired visual navigation strategies in flying ro...
A fundamental capability of any navigation system is the perception of potential contact with surfac...
Caleb Hulbert B.S., Cornell University, 2016 Biologically Inspired Autonomous Robotic Navigation usi...
While mobile robots and walking insects can use proprioceptive information (specialized receptors in...
In this paper a novel biologically inspired method is addressed for the robot homing problem where a...
Navigation is at the heart of today’s mobile robotic systems. The use of landmarks for the guidance ...
Vardy A, Möller R. Biologically plausible visual homing methods based on optical flow techniques. Co...
Many animals, including insects, successfully engage in visual homing. We describe a system that all...
Visual homing describes the ability of a robot to autonomously return to its starting position along...
Abstract — A biologically-inspired approach to robot route following is presented. Snapshot images o...
We propose a novel, vision-based method for robot homing, the problem of computing a route so that a...
The Problem: The aim of this work is to develop algorithms that will be used for robust visual navig...
International audienceFlying insects and birds are able to fly smartly in an unpredictable environme...
Motion has been examined in biology to be a critical component for obstacle avoidance and navigation...
We present a fast and efficient homing algorithm based on Fourier transformed panoramic images. By c...
This paper discusses the implementation of insect-inspired visual navigation strategies in flying ro...
A fundamental capability of any navigation system is the perception of potential contact with surfac...
Caleb Hulbert B.S., Cornell University, 2016 Biologically Inspired Autonomous Robotic Navigation usi...
While mobile robots and walking insects can use proprioceptive information (specialized receptors in...