The Optimization Research on RF Chip Signal Processing Based on Deep Learning Algorithms

DOI: https://doi.org/10.62517/jike.202404206

Author(s)

Liu Yongjin

Affiliation(s)

Xihua University, Chengdu, Sichuan, China

Abstract

With the rapid development of wireless communication technology, radio frequency (RF) chips, as the core components of communication systems, directly influence the overall system performance through their signal processing capabilities. Traditional signal processing methods often struggle to achieve optimal results in the face of complex and variable communication environments. In recent years, deep learning technology, due to its powerful feature learning and pattern recognition capabilities, has shown tremendous potential in various fields. This paper addresses the signal processing issues of RF chips and proposes an optimization method based on deep learning algorithms. Firstly, the status and challenges of RF chip signal processing are analyzed, followed by the design of a deep learning model suitable for RF signal processing. Through data pre-processing and feature extraction, the generalization ability of the model is enhanced. Experimental results demonstrate that the proposed method outperforms traditional methods in signal noise suppression, interference cancellation, and signal distortion compensation, significantly improving the signal processing performance of RF chips. This research provides new ideas and methods for the application of deep learning in the field of RF chip signal processing and holds significant theoretical and practical importance for the future development of wireless communication systems.

Keywords

Deep Learning; Radio Frequency Chips; Signal Processing; Optimization; Wireless Communication

References

[1] Zhang, Yang. Research on RF Performance Test Scheme for LTE Chips Based on ATE [D]. Xidian University, 2020. [2] Li, Xingyao. Design and Implementation of a Dual-Antenna GNSS-R Data Acquisition System [D]. Shandong University, 2024. [3] Zhang Lei. "Research on Personalized Precision Marketing Strategies for Enterprises under the Background of Big Data." Journal of Puer University, 2021, 37(02): 28-30. [4] Liu, Xiang. Analysis of Coexistence and Crosstalk Issues in MCM Packaging of RF Chips [D]. Shanghai Jiao Tong University, 2023.