What question did this study set out to answer?

The central aim is to evaluate the performance of a RIS beam-scanning testbed in mmWave OFDM systems.

February 28, 2026

Implementation of RIS Beam-Scanning Testbed and Performance Analysis in mmWave OFDM Systems

Key Points

The central aim is to evaluate the performance of a RIS beam-scanning testbed in mmWave OFDM systems.
Developed a 1-bit, 32×32 PIN-diode RIS with FPGA control.
Implemented a codebook-based beam-scanning structure for rapid switching.
Validated performance using horn antennas and a vector network analyzer.
Developed a LabVIEW-based end-to-end 28 GHz OFDM testbed for link experiments.
Demonstrated precise near-and far-field pattern controls.
Significant improvements in constellation quality under focused beam conditions.
Reduced bit-error-rate (BER) when using RIS compared to non-focused scenarios.

Abstract

Reconfigurable Intelligent Surfaces (RIS) offer a low-power, programmable means to manipulate mmWave propagation by dynamically adjusting the phase of an array of passive elements. In this work, we develop and evaluate a 1-bit, 32×32 PIN-diode RIS equipped with an FPGA-based high-speed control board. We implement a codebook-based beam-scanning structure using a LabVIEW host and FPGA for rapid beam switching. We validate beam-steering performance using horn antennas and vector network analyzer, demonstrating precise near-and far-field pattern controls that closely match MATLAB simulations. Finally, we develop a LabVIEW-based 28 GHz end-to-end OFDM testbed and conduct link experiments, showing significant improvements in constellation quality and bit-error-rate (BER) under target beam conditions compared to non-focused conditions. These results confirm that RIS can effectively enhance mmWave OFDM communication links in practical scenarios.

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Implementation of RIS Beam-Scanning Testbed and Performance Analysis in mmWave OFDM Systems

Key Points

Abstract

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