Litcius/Paper detail

Photonics-aided integrated sensing and communications in mmW bands based on a DC-offset QPSK-encoded LFMCW

Mingzheng Lei, Bingchang Hua, Yuancheng Cai, Jiao Zhang, Yucong Zou, Weidong Tong, Xiang Liu, Miaomiao Fang, Jianjun Yu, Min Zhu

2022Optics Express33 citationsDOIOpen Access PDF

Abstract

The evolution of mobile communications towards millimeter-wave (mmW) bands provides a strong opportunity for the seamless integration of radar and wireless communications. We present a photonics-aided mmW integrated sensing and communications (ISAC) system constructed by photonic up-conversion using a coherent optical frequency comb, which facilitates zero frequency offset of the resulting mmW signal. The sensing and communications functions are enabled by a joint waveform that encodes a DC-offset QPSK signal on a linear frequency-modulated continuous wave (LFMCW) in baseband. The QPSK encoding ensures the constant envelope of the mmW ISAC signal for long-distance radar detection. The optimized DC offset preserves the distinctive chirp phase and good cross-correlation of the original LFMCW, which can achieve high-resolution sensing by radar de-chirping and assist in communication sequence synchronization by pulse compression, respectively. Experimental results show that the single-user detection with less than 20-mm sensing error and dual-user detection with a 10.4-cm ranging resolution are realized at 28-GHz band, respectively. The wireless communication with a 11.5-Gbit/s transmission rate also at 28-GHz band is successfully tested. Moreover, the proof-of-concept experiments demonstrate the good frequency tunability and wavelength tolerance of the proposed ISAC system.

Topics & Concepts

Phase-shift keyingComputer scienceBasebandElectronic engineeringPhotonicsRadarChirpFrequency offsetBit error rateOpticsBandwidth (computing)TelecommunicationsPhysicsChannel (broadcasting)EngineeringOrthogonal frequency-division multiplexingLaserAdvanced Photonic Communication SystemsAdvanced Fiber Laser TechnologiesPhotonic and Optical Devices