Photorefractive materials exhibit an interesting plasticity under the influence of an optical field. By extending the finite-difference time-domain method to include the photorefractive effect, we explore how this property can be exploited in the context of neuromorphic computing for telecom applications. By first priming the photorefractive material with a random bit stream, the material reorganizes itself to better recognize simple patterns in the stream. We demonstrate this by simulating a typical reservoir computing setup, which gets a significant performance boost on performing the XOR on two consecutive bits in the stream after this initial priming step.Photorefractive materials exhibit an interesting plasticity under the influence of...
We consider the convergence characteristics of a perceptron learning algorithm, taking into account ...
In this thesis we study photonic computation within the framework of reservoir computing. Inspired b...
Reservoir Computing is a bio-inspired computing paradigm for processing time dependent signals that ...
Photorefractive materials exhibit an interesting plasticity under the influence of an optical field....
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
We review a novel paradigm that has emerged in analogue neuromorphic optical computing. The goal is ...
We present a novel, versatile optoelectronic neural network architecture for implementing supervised...
International audienceModelisation and simulation of promising non linear optical materials such as ...
The recent progress in artificial intelligence has spurred renewed interest in hardware implementati...
Nonlinear photonic delay systems present interesting implementation platforms for machine learning m...
For many challenging problems where the mathematical description is not explicitly defined, artifici...
Reservoir Computing [1] is a new approach to study and use Neural Networks, which try to mimic a bra...
Delay-coupled optoelectronic systems form promising candidates to act as powerful information proces...
Le Reservoir Computing (RC) est un paradigme s’inspirant du cerveau humain, apparu récemment au débu...
International audienceMany information processing challenges are difficult to solve with traditional...
We consider the convergence characteristics of a perceptron learning algorithm, taking into account ...
In this thesis we study photonic computation within the framework of reservoir computing. Inspired b...
Reservoir Computing is a bio-inspired computing paradigm for processing time dependent signals that ...
Photorefractive materials exhibit an interesting plasticity under the influence of an optical field....
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
We review a novel paradigm that has emerged in analogue neuromorphic optical computing. The goal is ...
We present a novel, versatile optoelectronic neural network architecture for implementing supervised...
International audienceModelisation and simulation of promising non linear optical materials such as ...
The recent progress in artificial intelligence has spurred renewed interest in hardware implementati...
Nonlinear photonic delay systems present interesting implementation platforms for machine learning m...
For many challenging problems where the mathematical description is not explicitly defined, artifici...
Reservoir Computing [1] is a new approach to study and use Neural Networks, which try to mimic a bra...
Delay-coupled optoelectronic systems form promising candidates to act as powerful information proces...
Le Reservoir Computing (RC) est un paradigme s’inspirant du cerveau humain, apparu récemment au débu...
International audienceMany information processing challenges are difficult to solve with traditional...
We consider the convergence characteristics of a perceptron learning algorithm, taking into account ...
In this thesis we study photonic computation within the framework of reservoir computing. Inspired b...
Reservoir Computing is a bio-inspired computing paradigm for processing time dependent signals that ...