Fine-grained Modulation for Zigbee Codeword Translation

TL;DR

This paper compares phase shift modulation techniques in Zigbee backscatter systems, demonstrating that frequency-phase shift modulation offers higher spectrum efficiency and effective codeword translation, validated through experiments and simulations.

Contribution

It introduces the application of FPS modulation to Zigbee codeword translation, enhancing spectrum efficiency over traditional IPS methods.

Findings

FPS modulation achieves 1.8 MHz bandwidth, half of IPS bandwidth.

FPS modulation is suitable for Zigbee codeword translation.

Experimental and simulation results confirm effectiveness.

Abstract

In Zigbee backscatter systems, tags piggyback information by adding phase shifts to the RF carriers. The instantaneous-phase shift (IPS) modulation adds phase shifts by toggling between discrete phases, which is easy to realize and is widely used in previous systems. However, as the spectrum efficiency of IPS is poor, it is not suitable for large networks. Thus, frequency-phase shift (FPS) modulation was proposed to make up this drawback. It adds continuous phase shifts to the non-productive carriers by toggling between square waves of different frequencies and has higher spectrum efficiency. In this paper, we realized IPS modulation and FPS modulation on Zigbee single-tone signals, respectively. In addition, we creatively proposed to apply FPS modulation to codeword translation. We prototype the system using a microchip transmitter, an off-the-shelf FPGA, and a commodity Zigbee receiver. Through extensive experiments, we proved that FPS modulated Zigbee transmissions have a bandwidth of 1.8 MHz, Which is 2x lower than that of IPS. In addtion, we conducted simulation experiments in MATLAB and demonstrated that FPS modulation can be used in Zigbee codeword translation.