Denoising Diffusion Probabilistic Models for Hardware-Impaired Communications

09/15/2023
by   Mehdi Letafati, et al.
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Generative AI has received significant attention among a spectrum of diverse industrial and academic domains, thanks to the magnificent results achieved from deep generative models such as generative pre-trained transformers (GPT) and diffusion models. In this paper, we explore the applications of denoising diffusion probabilistic models (DDPMs) in wireless communication systems under practical assumptions such as hardware impairments (HWI), low-SNR regime, and quantization error. Diffusion models are a new class of state-of-the-art generative models that have already showcased notable success with some of the popular examples by OpenAI and Google Brain. The intuition behind DDPM is to decompose the data generation process over small "denoising" steps. Inspired by this, we propose using denoising diffusion model-based receiver for a practical wireless communication scheme, while providing network resilience in low-SNR regimes, non-Gaussian noise, different HWI levels, and quantization error. We evaluate the reconstruction performance of our scheme in terms of bit error rate (BER) and mean-squared error (MSE). Our results show that 30 improvement in BER could be achieved compared to deep neural network (DNN)-based receivers in AWGN and non-Gaussian scenarios, respectively.

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