The mechanism for motion detection in a fly's vision system, known as the Reichardt correlator, suffers from a main shortcoming as a velocity estimator: low accuracy. To enable accurate velocity estimation, responses of the Reichardt correlator to image sequences are analyzed in this paper. An elaborated model with additional preprocessing modules is proposed. The relative error of velocity estimation is significantly reduced by establishing a real-time response-velocity lookup table based on the power spectrum analysis of the input signal. By exploiting the improved velocity estimation accuracy and the simple structure of the Reichardt correlator, a high-speed vision system of 1 kHz is designed and applied for robot yaw-angle control in re...
We present the results of a biomimetic model of motion detection in the insect visual system based o...
This paper describes a new algorithm for velocity detection using the principle of a fly-eye. Called...
Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, ...
The mechanism for motion detection in a fly's vision system, known as the Reichardt correlator, suff...
The study of insect vision is believed to provide a key solution to many different aspects of motion...
The insect visual system, with its simplicity and efficiency has gained widespread attention and man...
The study of insect vision is of significant interest to engineers for inspiring the design of futur...
Insects are blessed with a very efficient yet simple visual system which enable them to navigate wit...
Insects perform highly complicated navigational tasks even though their visual system is relatively ...
Inspired by the insects’ incredible visual capabilities, many vision motion detection systems were p...
Motion detection and velocity estimation systems based on thestudy of insects tries to emulate the e...
A prominent model of visual motion detection is the so-called correlation or Reichardt detector. Whe...
©2006 COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract...
Motion detection plays an important role in visual systems. On the basis of Reichardt's model of mot...
Insects with their amazing visual system are able to perform exceptional navigational feats. In orde...
We present the results of a biomimetic model of motion detection in the insect visual system based o...
This paper describes a new algorithm for velocity detection using the principle of a fly-eye. Called...
Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, ...
The mechanism for motion detection in a fly's vision system, known as the Reichardt correlator, suff...
The study of insect vision is believed to provide a key solution to many different aspects of motion...
The insect visual system, with its simplicity and efficiency has gained widespread attention and man...
The study of insect vision is of significant interest to engineers for inspiring the design of futur...
Insects are blessed with a very efficient yet simple visual system which enable them to navigate wit...
Insects perform highly complicated navigational tasks even though their visual system is relatively ...
Inspired by the insects’ incredible visual capabilities, many vision motion detection systems were p...
Motion detection and velocity estimation systems based on thestudy of insects tries to emulate the e...
A prominent model of visual motion detection is the so-called correlation or Reichardt detector. Whe...
©2006 COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract...
Motion detection plays an important role in visual systems. On the basis of Reichardt's model of mot...
Insects with their amazing visual system are able to perform exceptional navigational feats. In orde...
We present the results of a biomimetic model of motion detection in the insect visual system based o...
This paper describes a new algorithm for velocity detection using the principle of a fly-eye. Called...
Flying insects use compensatory head movements to stabilize gaze. Like other optokinetic responses, ...