We present a new machine learning (ML) deep learning (DL) synthesis algorithm for the design of a microstrip meander line (MML) slow wave structure (SWS). Exact numerical simulation data are used in the training of our network as a form of supervised learning. The learning results show that the training mean squared error is as low as 5.23 × 10−2 when using 900 sets of data. When the desired performance is reached, workable geometry parameters can be obtained by this algorithm. A D-band MML SWS with 20 GHz bandwidth at 160 GHz center frequency is then designed using the auto-design neural network (ADNN). A cold test shows that its phase velocity varies by 0.005 c, and the transmission rate of a 50-period SWS is greater than −5 dB with the r...
Distributed Bragg Reflectors are optical structures capable of manipulating light behaviour, which a...
Future wireless systems will range from sub-6 GHz to above 60 GHz so that large bandwidths could be ...
mmWave communication requires accurate and continuous beam steering to overcome the severe propagati...
We are interested in exploring the limit in using deep learning (DL) to study the electromagnetic (E...
Abstract Inspired by the remarkable learning and prediction performance of deep neural networks (DN...
Design of microwave structures and tuning parameters have mostly relied on the domain expertise of c...
International audienceInspired by the remarkable learning and prediction performance of deep neural ...
This paper presents a new model based on the backpropagation multilayered perception network to find...
Purpose - To present a neural network-based approach to the design of electromagnetic devices. Desig...
The application of a multilayer perceptron (MLP) for calculating the electrodynamic characteristics ...
The process of designing microwave devices is difficult and time-consuming because the analytical an...
Millimeter Wave (mm-wave) has been considered as significant importance in various communication sys...
In the design of conventional microwave devices, the parameters need to be continuously optimized to...
The relations between the antennas' geometrical parameters and design specifications usually consist...
Microstrip lines, widely used for good reason, are broadband in frequency and provide circuits that ...
Distributed Bragg Reflectors are optical structures capable of manipulating light behaviour, which a...
Future wireless systems will range from sub-6 GHz to above 60 GHz so that large bandwidths could be ...
mmWave communication requires accurate and continuous beam steering to overcome the severe propagati...
We are interested in exploring the limit in using deep learning (DL) to study the electromagnetic (E...
Abstract Inspired by the remarkable learning and prediction performance of deep neural networks (DN...
Design of microwave structures and tuning parameters have mostly relied on the domain expertise of c...
International audienceInspired by the remarkable learning and prediction performance of deep neural ...
This paper presents a new model based on the backpropagation multilayered perception network to find...
Purpose - To present a neural network-based approach to the design of electromagnetic devices. Desig...
The application of a multilayer perceptron (MLP) for calculating the electrodynamic characteristics ...
The process of designing microwave devices is difficult and time-consuming because the analytical an...
Millimeter Wave (mm-wave) has been considered as significant importance in various communication sys...
In the design of conventional microwave devices, the parameters need to be continuously optimized to...
The relations between the antennas' geometrical parameters and design specifications usually consist...
Microstrip lines, widely used for good reason, are broadband in frequency and provide circuits that ...
Distributed Bragg Reflectors are optical structures capable of manipulating light behaviour, which a...
Future wireless systems will range from sub-6 GHz to above 60 GHz so that large bandwidths could be ...
mmWave communication requires accurate and continuous beam steering to overcome the severe propagati...