1.
Margineanu, Teodor; Enescu, Alexandra-Mihaela; Enescu, Horia-Razvan; Enachescu, Marius
NTP-Synchronized Time-Stamper for RADAR Signal Acquisition Proceedings Article
In: 2024 IEEE International Black Sea Conference on Communications and Networking (BlackSeaCom), pp. 119-124, 2024, ISSN: 2687-9808.
Abstract | Links | BibTeX | Tags: Accuracy;Microcontrollers;Spaceborne radar;Surveillance;Operating systems;Sea measurements;Aerospace electronics;Embedded System;NTP;Time-stamper;RADAR
@inproceedings{10646303,
title = {NTP-Synchronized Time-Stamper for RADAR Signal Acquisition},
author = {Teodor Margineanu and Alexandra-Mihaela Enescu and Horia-Razvan Enescu and Marius Enachescu},
doi = {10.1109/BlackSeaCom61746.2024.10646303},
issn = {2687-9808},
year = {2024},
date = {2024-06-01},
booktitle = {2024 IEEE International Black Sea Conference on Communications and Networking (BlackSeaCom)},
pages = {119-124},
abstract = {This work presents a hardware implementation of the NTP-synchronized time-stamper for RADAR signal acquisition which has significantly enhanced the precision and robustness of the Cheia ground-based FMCW space radar system. By utilizing a bare-metal STM32 microcontroller for on-demand synchronization and data management, the system now ensures accurate time alignment and seamless information transfer to the controlling computer. This solution not only addresses accuracy challenges, but also may optimize the radar system's tracking capabilities. The successful integration of the time-stamper device might underscore its value in improving data acquisition and analysis, marking a significant advancement in space surveillance and tracking technologies.},
keywords = {Accuracy;Microcontrollers;Spaceborne radar;Surveillance;Operating systems;Sea measurements;Aerospace electronics;Embedded System;NTP;Time-stamper;RADAR},
pubstate = {published},
tppubtype = {inproceedings}
}
This work presents a hardware implementation of the NTP-synchronized time-stamper for RADAR signal acquisition which has significantly enhanced the precision and robustness of the Cheia ground-based FMCW space radar system. By utilizing a bare-metal STM32 microcontroller for on-demand synchronization and data management, the system now ensures accurate time alignment and seamless information transfer to the controlling computer. This solution not only addresses accuracy challenges, but also may optimize the radar system's tracking capabilities. The successful integration of the time-stamper device might underscore its value in improving data acquisition and analysis, marking a significant advancement in space surveillance and tracking technologies.