eadf: Representation of far-field antenna responses in Python | Zendy

Sebastian Semper | Zendy; Michael Döbereiner | Zendy; Sandeep Pawar | Zendy; Martin Landmann | Zendy; Giovanni Del Galdo | Zendy

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eadf: Representation of far-field antenna responses in Python

Author(s) -

Sebastian Semper,

Michael Döbereiner,

Sandeep Pawar,

Martin Landmann,

Giovanni Del Galdo

Publication year - 2020

Publication title -

softwarex

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.528

H-Index - 21

ISSN - 2352-7110

DOI - 10.1016/j.softx.2020.100583

Subject(s) - computer science , python (programming language) , antenna (radio) , reconfigurable antenna , software , electronic engineering , mimo , representation (politics) , field (mathematics) , computer engineering , radiation pattern , telecommunications , antenna efficiency , programming language , engineering , channel (broadcasting) , mathematics , politics , pure mathematics , law , political science

Understanding and analysis of antennas is crucial for the development of modern telecommunication technologies, like 5G or massive MIMO. Research in this area has the need for software to measure, analyze and test antenna systems. For instance, one needs a convenient way to transform large amounts of antenna measurement data into a concise representation. The herein described eadf package aims at providing this functionality. On top of that, it offers routines to interpolate the beam-pattern of an antenna as well as compressing it in spatial frequency domain. As such, it can be used for the development of high resolution parameter estimation algorithms and analysis of antenna beam-patterns. In summary, the package provides a flexible and extensible framework for dealing with antennas.

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