Novel use of an analog motion detection circuit is presented. The circuit, developed by Tanner and Mead, computes motion by dividing the time derivative of intensity by its spatial derivative; the four-quadrant division is realized with a multiplier within a negative feedback loop. The authors have opened the loop and characterized the circuit as a multiplication-based motion detector, in which the output is the product of the temporal and spatial derivatives of intensity, for various light levels and various moving patterns. An application to the time-to- contact computation is presented
Abstract—We describe a new motion detection circuit that extracts motion information based on a time...
Abstract—This paper presents a low-power compact analog cir-cuit for processing time varying signals...
Flies are capable of rapidly detecting and integrating visual motion information in behaviorly-relev...
Novel use of an analog motion detection circuit is presented. The circuit, developed by Tanner and M...
We have designed, built and tested a number of analog CMOS VLSI circuits for computing 1-D motion fr...
The real time computation of motion from real images using a single chip with integrated sensors is...
Two systems for detecting the motion of a scene are described. For both, an image is projected direc...
We have designed, built and tested a number of analog CMOS VLSI circuits for computing 1-D motion fr...
The authors have designed and tested a one-dimensional 64 pixel, analog CMOS VLSI chip which localiz...
The real time computation of motion from real images using a single chip with integrated sensors is ...
Inspired by a visual motion detection model for the rabbit retina and by a computational architectu...
We propose herein a motion detection artificial vision model which uses analog electronic circuits. ...
This paper describes the theory and implementation of an integrated system that reports the uniform...
In this paper, we propose an analog-digital hybrid CMOS circuit producing two-dimensional optical fl...
The real time computation of motion from real images using a single chip with integrated sensors is ...
Abstract—We describe a new motion detection circuit that extracts motion information based on a time...
Abstract—This paper presents a low-power compact analog cir-cuit for processing time varying signals...
Flies are capable of rapidly detecting and integrating visual motion information in behaviorly-relev...
Novel use of an analog motion detection circuit is presented. The circuit, developed by Tanner and M...
We have designed, built and tested a number of analog CMOS VLSI circuits for computing 1-D motion fr...
The real time computation of motion from real images using a single chip with integrated sensors is...
Two systems for detecting the motion of a scene are described. For both, an image is projected direc...
We have designed, built and tested a number of analog CMOS VLSI circuits for computing 1-D motion fr...
The authors have designed and tested a one-dimensional 64 pixel, analog CMOS VLSI chip which localiz...
The real time computation of motion from real images using a single chip with integrated sensors is ...
Inspired by a visual motion detection model for the rabbit retina and by a computational architectu...
We propose herein a motion detection artificial vision model which uses analog electronic circuits. ...
This paper describes the theory and implementation of an integrated system that reports the uniform...
In this paper, we propose an analog-digital hybrid CMOS circuit producing two-dimensional optical fl...
The real time computation of motion from real images using a single chip with integrated sensors is ...
Abstract—We describe a new motion detection circuit that extracts motion information based on a time...
Abstract—This paper presents a low-power compact analog cir-cuit for processing time varying signals...
Flies are capable of rapidly detecting and integrating visual motion information in behaviorly-relev...