Reliable Linearized Phase Retrieval for Near-Field Antenna Measurements With Truncated Measurement Surfaces
Alexander Paulus, Josef Knapp, Jonas Kornprobst, Thomas F. Eibert
Abstract
Most methods tackling the phase retrieval problem of magnitude-only antenna measurements suffer from unrealistic sampling requirements, from unfeasible computational complexities, and, most severely, from the lacking reliability of nonlinear and nonconvex formulations. As an alternative, we propose a partially coherent multiprobe measurement technique and an associated linear reconstruction method which mitigate all these issues. Hence, reliable and accurate phase retrieval can be achieved in near-field far-field transformations (NFFFTs). In particular, we resolve the issues related to open measurement surfaces (as they may emerge in drone-based measurement setups) and we highlight the importance of considering the measurement setup and the phaseless NFFFT simultaneously. Specifically, the influence of special multiprobe arrangements on the reconstruction quality of partially coherent solvers is shown..