A variety of computational tasks in early vision can be formulated through lattice networks. The cooperative action of these networks depends on the topology of interconnections, both feedforward and recurrent ones. This paper shows that it is possible to consider a distinct general architectural solution for all recurrent computations of any given order. The Gaborlike impulse response of a second-order network is analyzed in detail, pointing out how a near-optimal filtering behavior in space and frequency domains can be achieved through excitatory/inhibitory interactions without impairing the stability of the system. These architectures can be mapped, very efficiently at transistor level, on very large scale integration (VLSI) structures o...
The detection of discontinuities in motion, intensity, color, and depth is a well-studied but diffic...
In this paper we present an analog VLSI architecture that implements a neural network for image proc...
In the last ten years, significant progress has been made in understanding the first steps in visual...
A variety of computational tasks in early vision can be formulated through lattice networks. The coo...
Lattice networks with nearest and next nearest interconnections, are characterized by Gabor-like imp...
Abstract: The amount of computation required to solve many early vision problems is prodigious, and ...
Analog VLSI signal processing is most effective when precision is not required, and is therefore an ...
Analog VLSI signal processing is most effective when precision is not required, and is therefore an ...
We outline a theoretical framework that leads from the computational nature of early vision to algor...
Integration of photosensors and processing elements provides a mechanism to concurrently perform com...
A large gap exists at present between computational theories of vision and their possible implemen...
Analog models provide a novel framework for understanding and developing algorithms for computer vis...
We describe two successfully working, analog VLSI vision circuits that move beyond pixel-based early...
Integration of photosensors and processing elements provides a mechanism to concurrently perform com...
This thesis presents a design framework and circuit implementations for integrating sensory and moto...
The detection of discontinuities in motion, intensity, color, and depth is a well-studied but diffic...
In this paper we present an analog VLSI architecture that implements a neural network for image proc...
In the last ten years, significant progress has been made in understanding the first steps in visual...
A variety of computational tasks in early vision can be formulated through lattice networks. The coo...
Lattice networks with nearest and next nearest interconnections, are characterized by Gabor-like imp...
Abstract: The amount of computation required to solve many early vision problems is prodigious, and ...
Analog VLSI signal processing is most effective when precision is not required, and is therefore an ...
Analog VLSI signal processing is most effective when precision is not required, and is therefore an ...
We outline a theoretical framework that leads from the computational nature of early vision to algor...
Integration of photosensors and processing elements provides a mechanism to concurrently perform com...
A large gap exists at present between computational theories of vision and their possible implemen...
Analog models provide a novel framework for understanding and developing algorithms for computer vis...
We describe two successfully working, analog VLSI vision circuits that move beyond pixel-based early...
Integration of photosensors and processing elements provides a mechanism to concurrently perform com...
This thesis presents a design framework and circuit implementations for integrating sensory and moto...
The detection of discontinuities in motion, intensity, color, and depth is a well-studied but diffic...
In this paper we present an analog VLSI architecture that implements a neural network for image proc...
In the last ten years, significant progress has been made in understanding the first steps in visual...