Machine Learning-Based Generative Optimization Method and Its Application to Antenna Decoupling Design

A machine learning-based generative optimization method using Masked Autoencoders (MAE) is proposed and applied to multi-objective antenna decoupling structure design. The machine learning method contains k-means algorithm and MAE neural network structure. The k-means is used for label-free classification of decoupling structure samples, and MAE is used for the intelligent optimization design of decoupling structures. By applying the machine learning-based method, MAE optimization models for designing decoupling structures are obtained. An antenna decoupling example using neutralization line is selected to validate the effectiveness of the proposed optimization method. Measurement results show that the neutralization line designed by the proposed method improves the antenna isolation by at least 6 dB , that is, S 21 reaches below at least -18 dB between 3.5 GHz and 9.7 GHz , while requiring little manual intervention during the optimization progress.