Comprehensive Open Dataset of Sub-6GHz Reconfigurable Intelligent Surface Measurements

This paper presents two publicly available datasets of real-world measurements collected using a custom-built sub-6GHz Reconfigurable Intelligent Surface (RIS) prototype in an anechoic chamber. The datasets provide detailed information on the RIS's beam-steering capabilities and absorption mode, enabling research on RIS-aided wireless communication systems.

The paper introduces a custom-built sub-6GHz Reconfigurable Intelligent Surface (RIS) prototype and the experimental setup used to collect two datasets in an anechoic chamber. The first dataset, called the "beampattern dataset", captures the RIS's beam-steering capabilities. It contains measurements of the received power at a fixed receiver as the RIS scans its main beam across different azimuth and elevation angles, while the RIS-receiver angle is varied by rotating a turntable. This dataset can be used to analyze the RIS's radiation patterns, including the location and magnitude of main beams and side lobes. The second dataset, called the "absorption mode dataset", explores the relationship between the number of active RIS elements and the resulting beamforming gain. In this case, the turntable is fixed, and the number of active RIS elements is varied. The dataset can be used to model the half-power beamwidth as a function of the RIS size. The authors demonstrate the usefulness of the datasets by training a deep neural network to accurately predict the RIS's radiation patterns and by deriving an exponential model for the half-power beamwidth. They also discuss how the datasets can be used for other applications, such as RIS-based localization. The availability of these real-world RIS measurement datasets is expected to foster progress in the research and development of RIS-aided wireless communication systems.

The received power (RSRP) is measured in dBm. The beampattern dataset contains the following key figures: The RIS main beam is scanned in the azimuth range of [-90°, 90°] and the elevation range of [-45°, 45°], with a step of 3°. The turntable is rotated in the azimuth range of [-90°, 90°] with a step of 3°. The measurements are collected for two different transmitter locations, with azimuth angles of 20° and 90°. The absorption mode dataset contains the following key figures: The number of active RIS elements is varied (4, 16, 64, 100). The turntable is fixed at 0° azimuth.

"RISs can dynamically re-focus the received EM waves towards desired directions in space by suitably configuring the scattering properties of each unit cell." "RISs are designed to be low-power, easy to manufacture, and low-cost devices."