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Autori principali: Kemptner, Alexander, Karoliny, Julian, Brunner, Hannah, Gaich, Andreas, Neubauer, Michael, Ademaj-Berisha, Fjolla, Casamassima, Filippo, Pachler, Walther, Rizkalla, Shrief, Witschnig, Harald, Springer, Andreas, Bernhard, Hans-Peter
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2603.03918
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author Kemptner, Alexander
Karoliny, Julian
Brunner, Hannah
Gaich, Andreas
Neubauer, Michael
Ademaj-Berisha, Fjolla
Casamassima, Filippo
Pachler, Walther
Rizkalla, Shrief
Witschnig, Harald
Springer, Andreas
Bernhard, Hans-Peter
author_facet Kemptner, Alexander
Karoliny, Julian
Brunner, Hannah
Gaich, Andreas
Neubauer, Michael
Ademaj-Berisha, Fjolla
Casamassima, Filippo
Pachler, Walther
Rizkalla, Shrief
Witschnig, Harald
Springer, Andreas
Bernhard, Hans-Peter
contents Testing Ultra-Wideband (UWB) systems is challenging, as multiple devices need to coordinate over lossy links and the systems' behavior is influenced by timing, synchronization, and environmental factors. Traditional testing is often insufficient to capture these complex interactions, highlighting the need for an overarching testbed infrastructure that can manage devices, control the environment, and make measurements and test scenarios repeatable. In this work, we present a highly automated testbed architecture built on Robot Operating System Version 2, integrating device management with environmental control and measurement systems. It includes an optical reference system, a controllable Autonomous Guided Vehicle to position devices within the environment, and time synchronization via Network Time Protocol (NTP). The testbed achieves a Root Mean Squared Error of 4.8 mm for positioning repeatability and 0.493$°$ for the orientation, and our NTP-based synchronization approach achieves a timing accuracy of below 1 ms. All testbed functionality can be controlled remotely through simple Python scripts to allow automated orchestration tasks such as conducting complex measurement scenarios. We demonstrate this with a measurement campaign on UWB localization, showing how it enables repeatable, observable, and fully controlled wireless experiments.
format Preprint
id arxiv_https___arxiv_org_abs_2603_03918
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Automated Testbed for Repeatable Evaluation of Ultra-Wideband Localization Performance
Kemptner, Alexander
Karoliny, Julian
Brunner, Hannah
Gaich, Andreas
Neubauer, Michael
Ademaj-Berisha, Fjolla
Casamassima, Filippo
Pachler, Walther
Rizkalla, Shrief
Witschnig, Harald
Springer, Andreas
Bernhard, Hans-Peter
Signal Processing
Testing Ultra-Wideband (UWB) systems is challenging, as multiple devices need to coordinate over lossy links and the systems' behavior is influenced by timing, synchronization, and environmental factors. Traditional testing is often insufficient to capture these complex interactions, highlighting the need for an overarching testbed infrastructure that can manage devices, control the environment, and make measurements and test scenarios repeatable. In this work, we present a highly automated testbed architecture built on Robot Operating System Version 2, integrating device management with environmental control and measurement systems. It includes an optical reference system, a controllable Autonomous Guided Vehicle to position devices within the environment, and time synchronization via Network Time Protocol (NTP). The testbed achieves a Root Mean Squared Error of 4.8 mm for positioning repeatability and 0.493$°$ for the orientation, and our NTP-based synchronization approach achieves a timing accuracy of below 1 ms. All testbed functionality can be controlled remotely through simple Python scripts to allow automated orchestration tasks such as conducting complex measurement scenarios. We demonstrate this with a measurement campaign on UWB localization, showing how it enables repeatable, observable, and fully controlled wireless experiments.
title Automated Testbed for Repeatable Evaluation of Ultra-Wideband Localization Performance
topic Signal Processing
url https://arxiv.org/abs/2603.03918