Journal ArticleDOI
A neural network modeling approach to circuit optimization and statistical design
TLDR
This paper presents a new approach to microwave circuit optimization and statistical design featuring neural network models at either device or circuit levels, which has the capability to handle high-dimensional and highly nonlinear problems.Abstract:
The trend of using accurate models such as physics-based FET models, coupled with the demand for yield optimization results in a computationally challenging task. This paper presents a new approach to microwave circuit optimization and statistical design featuring neural network models at either device or circuit levels. At the device level, the neural network represents a physics-oriented FET model yet without the need to solve device physics equations repeatedly during optimization. At the circuit level, the neural network speeds up optimization by replacing repeated circuit simulations. This method is faster than direct optimization of original device and circuit models. Compared to existing polynomial or table look-up models used in analysis and optimization, the proposed approach has the capability to handle high-dimensional and highly nonlinear problems. >read more
Citations
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Journal ArticleDOI
Linearization design method in class-F power amplifier using artificial neural network
TL;DR: This paper represents the design of a class-F power amplifier (PA), its artificial neural network (ANN) model and a PA linearization method, which shows the improvement of P1dB from 36 to 41 dBm, which is predicted using the proposed model.
Journal ArticleDOI
Direct-coupled cavity filters design using a hybrid feedforward neural network–finite elements procedure
TL;DR: In this article, a method is described for the design of direct-coupled cavity filters by using an artificial neural network (ANN) to directly determine the geometric dimensions of the filtering device with good accuracy and very short processing time.
Journal ArticleDOI
Optimization of full‐wave EM models by low‐order low‐dimension polynomial surrogate functionals
TL;DR: This approach starts from a careful selection of design variables and is based on a closed‐form formulation that yields global optimal values for the surrogate model weighting factors, avoiding a large set of expensive EM model data, and resulting in accurate low‐order low‐dimension polynomials interpolants that are used as vehicles for efficient design optimization.
Journal ArticleDOI
Neural Network Prediction of Air Stripping KLa
Y. Djebbar,Roberto M. Narbaitz +1 more
TL;DR: In this paper, neural network (NN) technology is used to analyze mass transfer characteristics in air stripping towers and to simulate the overall mass transfer coefficient (IK\dLa\N), which is frequently obtained via physically based parametric correlations.
Journal ArticleDOI
Finite element analysis of linear boundary value problems with geometrical parameters
TL;DR: In this paper, the authors proposed a methodology combining multi-variable model-order reduction with mesh perturbation techniques and polynomial interpolation of parameter-dependent FE matrices.
References
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