Multiple Reference Signals Collaborative Sensing for Integrated Sensing and Communication System Towards 5G-A and 6G
Zhiqing Wei, Fengyun Li, Haotian Liu, Xu Chen, Huici Wu, Kaifeng Han, Zhiyong Feng
Abstract
Integrated sensing and communication (ISAC) is considered as the potential key technology of the future mobile communication systems. The signal design is fundamental for the ISAC system. The reference signals in mobile communication systems have good detection performance, which is worth further research. Existing studies applied the single reference signal to radar sensing. In this paper, a multiple reference signals collaborative sensing scheme is designed. Specifically, we jointly apply channel state information reference signal (CSI-RS), positioning reference signal (PRS) and demodulation reference signal (DMRS) in radar sensing, which improve the performance of sensing and extend the unambiguously detectable range of distance and velocity via obtaining continuous time-frequency resource mapping. The Crámer-Rao lower bound (CRLB) of the joint reference signal for distance and velocity estimation is derived. The impacts of carrier frequency and subcarrier spacing on the performance of distance and velocity estimation are revealed. The results of simulation experiments show that compared with the single reference signal sensing scheme, the multiple reference signals collaborative sensing scheme effectively improves the sensing accuracy. Moreover, because of the discontinuous orthogonal frequency division multiplexing (OFDM) symbols, the accuracy and robustness of velocity estimation could be further improved via compressed sensing (CS). This paper has verified that multiple reference signals, instead of single reference signal, have much more superior performance on radar sensing, which is a practical and efficient approach in designing ISAC signal.