1. Software-Defined MIMO OFDM Joint Radar-Communication Platform with Fully Digital mmWave Architecture
- Author
-
Ozkaptan, Ceyhun D., Zhu, Haocheng, Ekici, Eylem, and Altintas, Onur
- Subjects
Electrical Engineering and Systems Science - Signal Processing ,Computer Science - Hardware Architecture ,B.4.1 ,B.4.5 - Abstract
Large-scale deployment of connected vehicles with cooperative sensing and maneuvering technologies increases the demand for vehicle-to-everything communication (V2X) band in 5.9 GHz. Besides the V2X spectrum, the under-utilized millimeter-wave (mmWave) bands at 24 and 77 GHz can be leveraged to supplement V2X communication and support high data rates for emerging broadband applications. For this purpose, joint radar-communication (JRC) systems have been proposed in the literature to perform both functions using the same waveform and hardware. In this work, we present a software-defined multiple-input and multiple-output (MIMO) JRC with orthogonal frequency division multiplexing (OFDM) for the 24 GHz mmWave band. We implement a real-time operating full-duplex JRC platform using commercially available software-defined radios and custom-built mmWave front-ends. With fully digital MIMO architecture, we demonstrate simultaneous data transmission and high-resolution radar imaging capabilities of MIMO OFDM JRC in the mmWave band., Comment: To appear at 3rd IEEE International Symposium on Joint Communications & Sensing (JC&S 2023)
- Published
- 2023