Data augmentation using a generative adversarial network for a high-precision instantaneous microwave frequency measurement system

In this Letter, an unsupervised-learning platform-generative adversarial network (GAN)-is proposed for experimental data augmentation in a deep-learning assisted photonic-based instantaneous microwave frequency measurement (IFM) system. Only 75 sets of experimental data are required and the GAN can augment the small amount of data into 5000 sets of data for training the deep learning model. Fur-thermore, frequency measurement error of the estimated frequency has improved by an order of magnitude from 50 MHz to 5 MHz. The proposed use of GAN effectively reduces the amount of experimental data needed by 98.75% and reduces measurement error by 10 times. (C) 2022 Optica Publishing Group

Automated summary

In this Letter, an unsupervised-learning platform-generative adversarial network (GAN) is proposed for experimental data augmentation in a deep-learning assisted photonic-based instantaneous microwave frequency measurement (IFM) system. The GAN can augment the small amount of data into 5000 sets for training the deep learning model, reducing the need for experimental data by 98.75% and improving measurement error by 10 times.