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Simplified radar architecture based on information metasurface

Si Ran Wang, Zhan Ye Chen, Shao Nan Chen, Jun Yan Dai, Jun Wei Zhang, Zhen Jie Qi, Li Jie Wu, Meng Sun, Qun Yan Zhou, Huidong Li, Zhangjie Luo, Qiang Cheng, Tie Jun Cui

2025Nature Communications9 citationsDOIOpen Access PDF

Abstract

Modern radar typically employs a chain radio-frequency (RF)-digital architecture, imposing high costs, substantial hardware burdens, and integration challenges. Here, we propose a simplified radar architecture based on space-time-coding (STC) information metasurfaces. With the capabilities to generate multiple frequencies and customize their phases, the STC metasurfaces play crucial roles in both transmission and reception: they enable chirp signal generation and radiation at the transmitter while facilitating echo reception and dechirp processing at the receiver. Remarkably, dechirp processing is performed at the RF level, removing the need for high-speed digitization and potentially enabling more efficient signal processing than conventional digital methods. As a proof of concept, experiments demonstrate that the proposed metasurface radar achieves target detection and range/speed measurement performance comparable to that of conventional systems. This study presents an innovative radar system paradigm that integrates RF front ends and signal processors onto an information metasurface platform, achieving essential sensing functions with reduced system complexity and cost. The authors present a simplified-architecture radar that uses information metasurfaces for direct generation and dechirp compression of radar signals in the RF domain, enabling full-chain reconfigurability without using extensive RF hardware and high-speed digitization.

Topics & Concepts

Computer scienceArchitectureRadarComputational biologyBiologyTelecommunicationsGeographyArchaeologyMetamaterials and Metasurfaces ApplicationsRadar Systems and Signal ProcessingAdvanced Wireless Communication Technologies
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