In this paper we give a profound insight into the computation capability of delay based reservoir computing via an eigenvalue analysis. We concentrate on the task-independent memory capacity to quantify the reservoir performance and compare these with the eigenvalue spectrum of the dynamical system. We show that these two quantities are deeply connected, and thus the reservoir computing performance is predictable by analysing the small signal response of the reservoir. Our results suggest that any dynamical system used as a reservoir can be analysed in this way. We apply our method exemplarily to a photonic laser system with feedback and compare the numerically computed recall capabilities with the eigenvalue spectrum. Optimal performance i...
International audienceWe numerically quantify the performance of photonic reservoir computer based o...
Optical implementations of reservoir computing systems are very promising because of their high proc...
International audienceWe numerically investigate a time-delayed reservoir computer architecture base...
International audienceWe analyze the modification of the computational properties of a time-delay ph...
The recent progress in artificial intelligence has spurred renewed interest in hardware implementati...
Delayed feedback systems are known to exhibit a rich dynamical behavior, showing a wide variety of d...
Reservoir computing has recently been introduced as a new paradigm in the field of machine learning....
Photonic implementations of reservoir computing (RC) have been receiving considerable attention due ...
International audienceWe study the performance of a photonic reservoir computer based on a semicondu...
Currently, multiple photonic reservoir computing systems show great promise for providing a practica...
We study the role of the system response time in the computational capacity of delay-based reservoir...
In recent years, various methods, architectures, and implementations have been proposed to realize h...
We show that many delay-based reservoir computers considered in the literature can be characterized ...
Tutor: Pere Colet.In the current thesis we experimentally study the dynamics of complex photonic sys...
In photonic reservoir computing, semiconductor lasers with delayed feedback have shown to be suited ...
International audienceWe numerically quantify the performance of photonic reservoir computer based o...
Optical implementations of reservoir computing systems are very promising because of their high proc...
International audienceWe numerically investigate a time-delayed reservoir computer architecture base...
International audienceWe analyze the modification of the computational properties of a time-delay ph...
The recent progress in artificial intelligence has spurred renewed interest in hardware implementati...
Delayed feedback systems are known to exhibit a rich dynamical behavior, showing a wide variety of d...
Reservoir computing has recently been introduced as a new paradigm in the field of machine learning....
Photonic implementations of reservoir computing (RC) have been receiving considerable attention due ...
International audienceWe study the performance of a photonic reservoir computer based on a semicondu...
Currently, multiple photonic reservoir computing systems show great promise for providing a practica...
We study the role of the system response time in the computational capacity of delay-based reservoir...
In recent years, various methods, architectures, and implementations have been proposed to realize h...
We show that many delay-based reservoir computers considered in the literature can be characterized ...
Tutor: Pere Colet.In the current thesis we experimentally study the dynamics of complex photonic sys...
In photonic reservoir computing, semiconductor lasers with delayed feedback have shown to be suited ...
International audienceWe numerically quantify the performance of photonic reservoir computer based o...
Optical implementations of reservoir computing systems are very promising because of their high proc...
International audienceWe numerically investigate a time-delayed reservoir computer architecture base...