The insect visual system, with its simplicity and efficiency has gained widespread attention and many biologically inspired models are being used for motion detection and velocity estimation tasks. One of the earliest and most efficient models among them is the Reichardt correlator model. In this paper, we have elaborated the basic Reichardt correlator to include spatial and temporal pre-filtering and additional non-linearites which are believed to be present in the fly visual system to develop a simple yaw sensor. We have used just 16 elaborated EMDs and it is seen that this sensor can detect rotational motion at angular velocities up to several thousand degrees per second. The modelling of these sensors make us realize that the VLSI imple...
This paper describes a new algorithm for velocity detection using the principle of a fly-eye. Called...
We present the results of a biomimetic model of motion detection in the insect visual system based o...
Flies are capable of rapidly detecting and integrating visual motion information in behaviorly-relev...
The insect visual system, with its simplicity and efficiency has gained widespread attention and man...
The mechanism for motion detection in a fly's vision system, known as the Reichardt correlator, suff...
Insects perform highly complicated navigational tasks even though their visual system is relatively ...
The study of insect vision is believed to provide a key solution to many different aspects of motion...
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...
©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...
Abstract—Autopilots for micro aerial vehicles (MAVs) with a maximum permissible avionic payload of o...
Motion detection and velocity estimation systems based on thestudy of insects tries to emulate the e...
Motion detection in the fly is extremely fast with low computational requirements. Inspired from the...
Inspired by the insects’ incredible visual capabilities, many vision motion detection systems were p...
This paper describes a new algorithm for velocity detection using the principle of a fly-eye. Called...
We present the results of a biomimetic model of motion detection in the insect visual system based o...
Flies are capable of rapidly detecting and integrating visual motion information in behaviorly-relev...
The insect visual system, with its simplicity and efficiency has gained widespread attention and man...
The mechanism for motion detection in a fly's vision system, known as the Reichardt correlator, suff...
Insects perform highly complicated navigational tasks even though their visual system is relatively ...
The study of insect vision is believed to provide a key solution to many different aspects of motion...
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...
©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...
Abstract—Autopilots for micro aerial vehicles (MAVs) with a maximum permissible avionic payload of o...
Motion detection and velocity estimation systems based on thestudy of insects tries to emulate the e...
Motion detection in the fly is extremely fast with low computational requirements. Inspired from the...
Inspired by the insects’ incredible visual capabilities, many vision motion detection systems were p...
This paper describes a new algorithm for velocity detection using the principle of a fly-eye. Called...
We present the results of a biomimetic model of motion detection in the insect visual system based o...
Flies are capable of rapidly detecting and integrating visual motion information in behaviorly-relev...