Preliminary Results of an Astri/UWM EGNSS Receiver Antenna Calibration Facility

In 2019, the University of Warmia and Mazury in Olsztyn, in cooperation with Astri Polska, started a European Space Agency (ESA) project. The purpose of the project is the development and implementation of a field calibration procedure for a multi-frequency and multi-system global navigation satelli...

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Autores principales: Dawidowicz, Karol, Rapiński, Jacek, Śmieja, Michał, Wielgosz, Paweł, Kwaśniak, Dawid, Jarmołowski, Wojciech, Grzegory, Tomasz, Tomaszewski, Dariusz, Janicka, Joanna, Gołaszewski, Paweł, Wolak, Bogdan, Baryła, Radosław, Krzan, Grzegorz, Stępniak, Katarzyna, Florin-Catalin, Grec, Brzostowski, Karol
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8309558/
https://www.ncbi.nlm.nih.gov/pubmed/34300379
http://dx.doi.org/10.3390/s21144639
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author Dawidowicz, Karol
Rapiński, Jacek
Śmieja, Michał
Wielgosz, Paweł
Kwaśniak, Dawid
Jarmołowski, Wojciech
Grzegory, Tomasz
Tomaszewski, Dariusz
Janicka, Joanna
Gołaszewski, Paweł
Wolak, Bogdan
Baryła, Radosław
Krzan, Grzegorz
Stępniak, Katarzyna
Florin-Catalin, Grec
Brzostowski, Karol
author_facet Dawidowicz, Karol
Rapiński, Jacek
Śmieja, Michał
Wielgosz, Paweł
Kwaśniak, Dawid
Jarmołowski, Wojciech
Grzegory, Tomasz
Tomaszewski, Dariusz
Janicka, Joanna
Gołaszewski, Paweł
Wolak, Bogdan
Baryła, Radosław
Krzan, Grzegorz
Stępniak, Katarzyna
Florin-Catalin, Grec
Brzostowski, Karol
author_sort Dawidowicz, Karol
collection PubMed
description In 2019, the University of Warmia and Mazury in Olsztyn, in cooperation with Astri Polska, started a European Space Agency (ESA) project. The purpose of the project is the development and implementation of a field calibration procedure for a multi-frequency and multi-system global navigation satellite system (GNSS). The methodology and algorithms proposed in the project are inspired by the “Hannover” concept of absolute field receiver antenna calibration; however, some innovations are introduced. In our approach, the antenna rotation point is close to the nominal mean phase center (MPC) of the antenna, although it does not coincide with it. Additionally, a National Marine Electronics Association local time zone (NMEA ZDA) message is used to synchronize the robot with the GNSS time. We also propose some modifications in robot arm movement scenarios. Our first test results demonstrate consistent performance for the calibration strategy and calibration procedure. For the global positioning system (GPS) L1 frequency, the calibration results show good agreement with the IGS-type mean values. For high satellite elevations (20°–90°), the differences do not exceed 1.5 mm. For low elevation angles (0°–20°), the consistency of the results is worse and the differences exceed a 3 mm level in some cases.
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spelling pubmed-83095582021-07-25 Preliminary Results of an Astri/UWM EGNSS Receiver Antenna Calibration Facility Dawidowicz, Karol Rapiński, Jacek Śmieja, Michał Wielgosz, Paweł Kwaśniak, Dawid Jarmołowski, Wojciech Grzegory, Tomasz Tomaszewski, Dariusz Janicka, Joanna Gołaszewski, Paweł Wolak, Bogdan Baryła, Radosław Krzan, Grzegorz Stępniak, Katarzyna Florin-Catalin, Grec Brzostowski, Karol Sensors (Basel) Article In 2019, the University of Warmia and Mazury in Olsztyn, in cooperation with Astri Polska, started a European Space Agency (ESA) project. The purpose of the project is the development and implementation of a field calibration procedure for a multi-frequency and multi-system global navigation satellite system (GNSS). The methodology and algorithms proposed in the project are inspired by the “Hannover” concept of absolute field receiver antenna calibration; however, some innovations are introduced. In our approach, the antenna rotation point is close to the nominal mean phase center (MPC) of the antenna, although it does not coincide with it. Additionally, a National Marine Electronics Association local time zone (NMEA ZDA) message is used to synchronize the robot with the GNSS time. We also propose some modifications in robot arm movement scenarios. Our first test results demonstrate consistent performance for the calibration strategy and calibration procedure. For the global positioning system (GPS) L1 frequency, the calibration results show good agreement with the IGS-type mean values. For high satellite elevations (20°–90°), the differences do not exceed 1.5 mm. For low elevation angles (0°–20°), the consistency of the results is worse and the differences exceed a 3 mm level in some cases. MDPI 2021-07-06 /pmc/articles/PMC8309558/ /pubmed/34300379 http://dx.doi.org/10.3390/s21144639 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Dawidowicz, Karol
Rapiński, Jacek
Śmieja, Michał
Wielgosz, Paweł
Kwaśniak, Dawid
Jarmołowski, Wojciech
Grzegory, Tomasz
Tomaszewski, Dariusz
Janicka, Joanna
Gołaszewski, Paweł
Wolak, Bogdan
Baryła, Radosław
Krzan, Grzegorz
Stępniak, Katarzyna
Florin-Catalin, Grec
Brzostowski, Karol
Preliminary Results of an Astri/UWM EGNSS Receiver Antenna Calibration Facility
title Preliminary Results of an Astri/UWM EGNSS Receiver Antenna Calibration Facility
title_full Preliminary Results of an Astri/UWM EGNSS Receiver Antenna Calibration Facility
title_fullStr Preliminary Results of an Astri/UWM EGNSS Receiver Antenna Calibration Facility
title_full_unstemmed Preliminary Results of an Astri/UWM EGNSS Receiver Antenna Calibration Facility
title_short Preliminary Results of an Astri/UWM EGNSS Receiver Antenna Calibration Facility
title_sort preliminary results of an astri/uwm egnss receiver antenna calibration facility
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8309558/
https://www.ncbi.nlm.nih.gov/pubmed/34300379
http://dx.doi.org/10.3390/s21144639
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