Litcius/Paper detail

Code-Division OFDM Joint Communication and Sensing System for 6G Machine-Type Communication

Xu Chen, Zhiyong Feng, Zhiqing Wei, Ping Zhang, Xin Yuan

2021IEEE Internet of Things Journal131 citationsDOI

Abstract

The joint communication and sensing (JCS) system can provide higher spectrum efficiency and load saving for 6G machine-type communication (MTC) applications by merging necessary communication and sensing abilities with unified spectrum and transceivers. In order to suppress the mutual interference between the communication and radar-sensing signals to improve the communication reliability and radar-sensing accuracy, we propose a novel code-division orthogonal frequency-division multiplex (CD-OFDM) JCS MTC system, where MTC users can simultaneously and continuously conduct communication and sensing with each other. We propose a novel CD-OFDM JCS signal and corresponding successive-interference-cancelation-based signal processing technique that obtains code-division multiplex gain, which is compatible with the prevalent orthogonal frequency-division multiplex (OFDM) communication system. To model the unified JCS signal transmission and reception process, we propose a novel unified JCS channel model. Finally, the simulation and numerical results are shown to verify the feasibility of the CD-OFDM JCS MTC system and the error propagation performance. We show that the CD-OFDM JCS MTC system can achieve not only more reliable communication but also comparably robust radar sensing compared with the precedent OFDM JCS system, especially in a low signal-to-interference-and-noise ratio regime.

Topics & Concepts

Orthogonal frequency-division multiplexingComputer scienceCommunications systemElectronic engineeringInterference (communication)RadarTransmission (telecommunications)SIGNAL (programming language)Real-time computingChannel (broadcasting)TelecommunicationsEngineeringProgramming languageFull-Duplex Wireless CommunicationsAdvanced Wireless Communication TechnologiesRadar Systems and Signal Processing