Analog self-interference cancellation based on zero-forcing sampling for in band full duplex radios

Abstract

A uniformly zero-forcing sampling method applied in the base-band analog domain is proposed for Self-Interference Cancellation (SIC) in Band Full-Duplex (IBFD) radios. In order to releasing the ADC dynamic range to enable the desired signal for further processing in the digital domain, the SIC is performed when ADC samples the received signal. Specifically, first, an auxiliary signal is designed to rectify the zero-crossings of the self-interference (SI) to be consistent with the ADC sampling points. Second, to achieve the auxiliary signal, a zero-forcing function is established by leveraging one-to-one mapping from the complex domain to the complex exponential domain. Meanwhile, a closed-form expression of the zero-forcing function is derived according to the Z transformation. Additionally, an orthogonal pilot structure is proposed to improve the SIC capability, and the computational complexity is investigated. Finally, simulation and experimental results show the effectiveness of the proposed method.