Russian Federation
Russian Federation
Admiral Makarov State University of Maritime and Inland Shipping
Russian Federation
Russian Federation
Russian Federation
To develop digital tools to automate the archiving of raindrop parameter measurements. These measurements are crucial for understanding their impact on radio wave propagation in the atmosphere and need to be taken into account for improving telecommunication subsystems designed to ensure the safety of autonomous and semi-autonomous commercial vessels. Methods: Digital technologies were employed to transform data from automatic raindrop parameter meters into archived measurement results in the form of databases. Results: A comprehensive software has been developed for the automated archiving of raindrop parameter measurement data. This software product is designed to interface with automatic raindrop parameter meters, facilitating the extraction of telemetry data. Through data transformation, the software converts the measurements into a standardized format optimized for storage. Subsequently, the processed data is efficiently integrated into database systems, ensuring the accessibility of the archived information. An algorithmic framework has been formulated to guide the implementation of this toolset. Practical significance: The scientific, methodological, and software foundations have been created for a comprehensive investigation into the influence of raindrop parameters on the reliability and noise immunity of marine radio communication channels within telecommunication subsystems throughout the safe operation of autonomous and semi-autonomous commercial vessels. The findings derived from this research can be employed in a variety of fields, including higher education system.
Telecommunication systems, autonomous and semi-autonomous vessels, maritime radio communication, rain, safety management, databases, automation of archiving
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