Do Ambient Backscatter Communication Receivers Require Low-Noise Amplifiers?

TL;DR

This paper investigates whether low-noise amplifiers improve ambient backscatter communication receiver performance, finding that LNAs can enhance detection at low-to-moderate ambient source power levels through a new detection framework.

Contribution

It introduces a novel AmBC detection framework incorporating LNA parameters and derives the BER and near-optimal threshold for improved symbol detection.

Findings

LNA improves detection at low-to-moderate ambient power

Derived BER and detection threshold formulas

Proposed parameter estimation method for thresholds

Abstract

In ambient backscatter communication (AmBC), strong direct interference from the ambient source poses a major challenge to reliable symbol detection. Although previous studies have shown that employing a low-noise amplifier (LNA) in conventional point-to-point communication improves symbol detection performance at low-to-moderate transmission power, it remains unclear whether this improvement also holds for AmBC. To respond it, in this work, we investigate the symbol detection performance of an AmBC receiver that is equipped with an LNA and adopts the energy detection (ED) to recover tag's information. Particularly, we first propose a new AmBC symbol detection framework that incorporates LNA parameters. On this basis, we derive the bit error rate (BER) of the ED and employ the deflection coefficient (DC) to demonstrate that the detection performance can be enhanced by the LNA at low-to-moderate ambient source transmission power. Then, we derive the near-optimal detection threshold to minimize the BER and propose a method to estimate the required parameters for this threshold by leveraging the tag's pilot symbols.