Experimental characterization of scattering from the trihedral corner reflector in the E‐band

Author:

Mbugua Allan Wainaina1,Chen Yun2,Alfageme Simon Tejero2,Biarge Sergio Duque2,Fan Wei34ORCID

Affiliation:

1. Huawei Technologies Duesseldorf GmbH Munich Research Center, Munich, Germany and the Antennas Propagation and Millimetre‐Wave Systems (APMS) Section Aalborg University Aalborg Denmark

2. Huawei Technologies Duesseldorf GmbH Munich Research Center Munich Germany

3. Antennas, Propagation and Millimetre‐Wave Systems (APMS) Section Aalborg University Aalborg Denmark

4. Center for Wireless Communication (CWC) Oulu University Oulu Finland

Abstract

AbstractCanonical objects with known radar cross section (RCS), for example, the trihedral corner reflector (TCR), play a crucial role in the calibration of automotive radar sensors. Moreover, these canonical objects are also used in the validation of simulated RCS obtained using asymptotic methods, such as hybrid geometric optics (GO) and the physical optics (PO) based methods. However, accurate RCS prediction with asymptotic methods is highly dependent on the individual scattering mechanisms considered in a simulation, for example reflection and diffraction from the TCR surfaces and edges, respectively. Reliable measurements are therefore required to evaluate if a particular interaction mechanism can be neglected to reduce computation complexity without adversely affecting the accuracy of the predicted RCS. In this letter, the monostatic scattering characteristics of three metallic TCRs are investigated with varying geometrical sizes in the E‐band, that is, from 60 GHz to 90 GHz. The ultra‐wideband (UWB) measurements, which offer a high delay resolution, can enable the identification of the individual scattering mechanisms. Diffraction from the TCR edges is experimentally demonstrated to contribute to a non‐negligible scattered power in this frequency band.

Publisher

Institution of Engineering and Technology (IET)

Subject

Electrical and Electronic Engineering

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