Simultaneous In-situ Direction Finding and Field Manipulation Based on Space-Time-Coding Digital Metasurface

The smart radio environment has become an eye-catching topic and is believed to own great potential in future wireless networks. Its essential demand lies in sensing and manipulating the electromagnetic (EM) fields accurately and simultaneously with the same aperture, which is hard to achieve using conventional methods owing to the difficulty in integrating different systems. We propose a millimeter-wave space-time-coding digital metasurface (STCM) to realize simultaneous in-situ direction finding and field manipulation. An analytic method of direction finding is firstly developed using the STCM modulated by an STC matrix while maintaining its original capability of EM field manipulations. In addition, three STC matrices corresponding to different EM functions are applied to the STCM to verify the feasibility and robustness of direction findings experimentally. Finally, a proof-of-concept prototype is built to exhibit different EM functions according to the incident angle detected simultaneously. The proposed concept sets the stage for the integrated implementation of the perception and response of the radio environment, which may find promising applications in future intelligent wireless networks and self-adaptive systems.