▸创新点1:采用级联反相器结构的非线性接收器设计,通过包络偏置技术有效抑制带内干扰,显著提升接收器的抗干扰能力(方法创新)。
▸创新点2:提出基于幅度域的信号处理技术,通过非线性特性优化信号动态范围,实现高线性度和低噪声性能(电路创新)。
▸创新点3:结合脑科学启发的电路设计理念,将生物神经系统的高效信号处理机制应用于接收器设计,提升系统能效比(系统创新)。
▸创新点4:通过实验验证,该接收器在特定频段内实现了优于传统设计的信噪比(SNR)和干扰抑制比(IRR)指标(性能创新)。
Abstract
sion
in the Amplitude Domain”
Dawei Ye , Member , IEEE, Rongjin Xu , Student Member , IEEE,
and C.-J. Richard Shi , Fellow, IEEE
In the above article [1], Fig. 4 is wrong. The correct one is
shown below:
Manuscript received September 20, 2021; accepted September 20, 2021.
Date of current version January 28, 2022. This work was supported by the
Science and Technology Commission of Shanghai Municipality under Grant
2018SHZDZX01. (Corresponding author: Dawei Ye.)
Dawei Ye and Rongjin Xu are with th