Litcius/Paper detail

Highly Efficient Waveform Design and Hybrid Duplex for Joint Communication and Sensing

Yihua Ma, Zhifeng Yuan, Shuqiang Xia, Guanghui Yu, Liujun Hu

2023IEEE Internet of Things Journal14 citationsDOI

Abstract

Joint communication and sensing (JCAS) is a very promising 6G technology, which attracts more and more research attention. Compared with communication, radar has many unique features in terms of waveform design criteria, self-interference cancelation (SIC), aperture-dependent resolution, and virtual aperture. This article proposes a novel waveform design named max-aperture radar slicing (MaRS) to gain a large time-frequency aperture, which is generated by orthogonal frequency division multiplexing (OFDM) and occupies only a tiny fraction of OFDM resources. The proposed MaRS keeps the radar advantages of constant modulus, zero auto-correlation sequence, and simple SIC. As MaRS consumes much less resources, conventional processing methods fail, and novel angle-Doppler map-based methods are proposed to obtain the range-velocity-angle information from MaRS echos and strong clutters. To avoid complex full-duplex communication, this article proposes a hybrid-duplex JCAS scheme composed of half-duplex communication and full-duplex radar. The half-duplex communication antenna array is reused, and a small sensing-dedicated antenna array is added. Using these two arrays, a large space-domain sensing aperture is virtually formed to greatly improve the angle resolution. The numerical results show that the proposed MaRS and hybrid duplex can achieve a high sensing resolution with only 0.4% OFDM resources, which reduces the overheads of conventional methods to less than one tenth.

Topics & Concepts

Computer scienceJoint (building)WaveformDuplex (building)Electronic engineeringTelecommunicationsEngineeringDNAArchitectural engineeringBiologyGeneticsRadarFull-Duplex Wireless CommunicationsRadar Systems and Signal ProcessingIndoor and Outdoor Localization Technologies