Litcius/Paper detail

Sensing-Based Beamforming Design for Joint Performance Enhancement of RIS-Aided ISAC Systems

Xiaowei Qian, Xiaoling Hu, Chenxi Liu, Mugen Peng, Caijun Zhong

2023IEEE Transactions on Communications64 citationsDOI

Abstract

Reconfigurable intelligent surface (RIS) has shown its great potential in facilitating device-based integrated sensing and communication (ISAC), where sensing and communication tasks are mostly conducted on different time-frequency resources. While the more challenging scenarios of simultaneous sensing and communication (SSC) have so far drawn little attention. In this paper, we propose a novel RIS-aided ISAC framework where the inherent location information in the received communication signals from a blind-zone user equipment is exploited to enable SSC. We first design a two-phase ISAC transmission protocol. In the first phase, communication and coarse-grained location sensing are performed concurrently by exploiting the very limited channel state information, while in the second phase, by using the coarse-grained sensing information obtained from the first phase, simple-yet-efficient sensing-based beamforming designs are proposed to realize both higher-rate communication and fine-grained location sensing. We demonstrate that our proposed framework can achieve almost the same performance as the communication-only frameworks, while providing up to millimeter-level positioning accuracy. In addition, we show how the communication and sensing performance can be simultaneously boosted through our proposed sensing-based beamforming designs. The results presented in this work provide valuable insights into the design and implementation of other ISAC systems considering SSC.

Topics & Concepts

BeamformingComputer scienceChannel (broadcasting)Communications systemTransmission (telecommunications)Electronic engineeringChannel state informationWirelessReal-time computingComputer networkTelecommunicationsEngineeringIndoor and Outdoor Localization TechnologiesAdvanced Wireless Communication TechnologiesUnderwater Vehicles and Communication Systems