In the advancing field of 5G technologies, particularly at the 60 GHz band, dielectric resonator antennas (DRAs) stand out for their low conduction loss and high radiation efficiency. However, the traditional design process for DRAs, predominantly reliant on intuitive reasoning and trial‐and‐error methods, is notably inefficient and resource‐intensive. Addressing this critical challenge, our research introduces a pioneering approach: a generative adversarial network (GAN)‐based model specifically tailored for automating DRA structure design. This novel model represents the first of its kind in the domain, marking a significant departure from conventional methods. Our GAN model uniquely integrates a simulator for DRA modeling and a generator for DRA structure design, streamlining the design process. To effectively train this model, we created a simulated data set comprising pattern–annotation pairs of geometric shapes and
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Abstract S 11parameters. This data set enabled the GAN to capture the intrinsic principles underlying DRA design. The practical impact of our model is profound; it significantly expedites the DRA design process, aligning it more closely with specific user requirements while conserving valuable time and resources. This breakthrough approach not only enhances the efficiency of DRA design but also sets a new standard in antenna technology development for future wireless communications. -
Qian, Jingjing ; Zhang, Qinming ; Liu, Mingdian ; Wang, Yixuan ; Lu, Meng ( , Biosensors and Bioelectronics)
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Liu, Mingdian ; Zhao, Yuxin ; Monshat, Hosein ; Tang, Zheyuan ; Wu, Zuowei ; Zhang, Qijing ; Lu, Meng ( , Biosensors and Bioelectronics)null (Ed.)
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Liu, Mingdian ; Monshat, Hosein ; Zhao, Yuxin ; Lu, Meng ( , 2019 IEEE SENSORS)