Antenna-arrays for Direction-of-Arrival (DOA) estimate are heavily limited by mutual coupling among sensors and between sensors and the installation environment. Huge efforts are devoted for calibration-based techniques that result not always decisive about compensating these unwanted coupling effects. In this paper we describe a possible application of Rydberg-atoms based sensors in the field of the DOA estimation. A principle fully-dielectric miniaturized 3D interferometer is presented, capable of providing both azimuth and elevation estimate of an incoming electromagnetic (EM) wave front thus overcoming the aforementioned limitations due to metal-based EM sensors (i.e. antennas).
Antennaless 3D Sensors for Direction of Arrival estimation Based on Rydberg Atoms / Scorrano, Luca; Maddio, Stefano; Pelosi, Giuseppe; Selleri, Stefano. - ELETTRONICO. - (2021), pp. 1-4. (Intervento presentato al convegno 2021 XXXIVth General Assembly and Scientific Symposium of the International Union of Radio Science (URSI GASS)) [10.23919/URSIGASS51995.2021.9560547].
Antennaless 3D Sensors for Direction of Arrival estimation Based on Rydberg Atoms
Maddio, Stefano;Pelosi, Giuseppe;Selleri, Stefano
2021
Abstract
Antenna-arrays for Direction-of-Arrival (DOA) estimate are heavily limited by mutual coupling among sensors and between sensors and the installation environment. Huge efforts are devoted for calibration-based techniques that result not always decisive about compensating these unwanted coupling effects. In this paper we describe a possible application of Rydberg-atoms based sensors in the field of the DOA estimation. A principle fully-dielectric miniaturized 3D interferometer is presented, capable of providing both azimuth and elevation estimate of an incoming electromagnetic (EM) wave front thus overcoming the aforementioned limitations due to metal-based EM sensors (i.e. antennas).
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