This article presents an extensive study and demonstration of efficient electrothermal largesignal GaN HEMT modeling approaches based on combined techniques of Genetic Algorithm (GA) with Artificial Neural Networks (ANN), and Particle Swarm optimization (PSO) with Support Vector Regression (SVR). Another promising Gaussian Process Regression (GPR) based large-signal modeling approach is also explored and presented. The GA-ANN addresses the typical problem of local minima associated with the backpropagation (BP) based ANN. The GA successfully aids in the determination of optimal initial values for BP-ANN and enables it to find a unique optimal solution after subsequent of iterations with higher rate of convergence. This is also achieved usi...
Abstract: This paper shows a physical approach to large-signal electro-thermal simulation of AlGaN/...
This letter introduces a novel approach using support vector regression (SVR) for sensitivity modeli...
International audienceThis paper reports on the development of a thermo-electrical non-linear model ...
In this paper, a genetic-neural-network (GNN) based large-signal model for GaN HEMTs is presented al...
In this work, our objective is to devise an effective and an accurate small-signal model to elucidat...
Abstract Machine learning‐based efficient temperature‐dependent small‐signal modelling approaches fo...
The work reported in this article explores a novel Particle Swarm Optimization (PSO) tuned Support ...
Machine learning‐based efficient temperature‐dependent small‐signal modelling ap proaches for GaN hi...
International audienceAlGaN/GaN hetero-structure varactors with various sizes have been fabricated a...
This article presents accurate, efficient and reliable small-signal model parameter extraction appro...
In this paper are given some recent results on modeling of High Power GaN HEMT devices. The GaN HEMT...
none3noThis paper presents a novel empirical model for gallium nitride on silicon carbide high-elect...
In this paper a procedure to extract temperature dependent equivalent circuits for modeling the smal...
A state-of-the-art Machine Learning (ML) based approach, by modeling the behavior of Gallium Nitride...
Abstract: This paper shows a physical approach to large-signal electro-thermal simulation of AlGaN/...
This letter introduces a novel approach using support vector regression (SVR) for sensitivity modeli...
International audienceThis paper reports on the development of a thermo-electrical non-linear model ...
In this paper, a genetic-neural-network (GNN) based large-signal model for GaN HEMTs is presented al...
In this work, our objective is to devise an effective and an accurate small-signal model to elucidat...
Abstract Machine learning‐based efficient temperature‐dependent small‐signal modelling approaches fo...
The work reported in this article explores a novel Particle Swarm Optimization (PSO) tuned Support ...
Machine learning‐based efficient temperature‐dependent small‐signal modelling ap proaches for GaN hi...
International audienceAlGaN/GaN hetero-structure varactors with various sizes have been fabricated a...
This article presents accurate, efficient and reliable small-signal model parameter extraction appro...
In this paper are given some recent results on modeling of High Power GaN HEMT devices. The GaN HEMT...
none3noThis paper presents a novel empirical model for gallium nitride on silicon carbide high-elect...
In this paper a procedure to extract temperature dependent equivalent circuits for modeling the smal...
A state-of-the-art Machine Learning (ML) based approach, by modeling the behavior of Gallium Nitride...
Abstract: This paper shows a physical approach to large-signal electro-thermal simulation of AlGaN/...
This letter introduces a novel approach using support vector regression (SVR) for sensitivity modeli...
International audienceThis paper reports on the development of a thermo-electrical non-linear model ...