Remote Sensing (Apr 2024)

Deep Learning Test Platform for Maritime Applications: Development of the eM/S Salama Unmanned Surface Vessel and Its Remote Operations Center for Sensor Data Collection and Algorithm Development

  • Juha Kalliovaara,
  • Tero Jokela,
  • Mehdi Asadi,
  • Amin Majd,
  • Juhani Hallio,
  • Jani Auranen,
  • Mika Seppänen,
  • Ari Putkonen,
  • Juho Koskinen,
  • Tommi Tuomola,
  • Reza Mohammadi Moghaddam,
  • Jarkko Paavola

DOI
https://doi.org/10.3390/rs16091545
Journal volume & issue
Vol. 16, no. 9
p. 1545

Abstract

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In response to the global megatrends of digitalization and transportation automation, Turku University of Applied Sciences has developed a test platform to advance autonomous maritime operations. This platform includes the unmanned surface vessel eM/S Salama and a remote operations center, both of which are detailed in this article. The article highlights the importance of collecting and annotating multi-modal sensor data from the vessel. These data are vital for developing deep learning algorithms that enhance situational awareness and guide autonomous navigation. By securing relevant data from maritime environments, we aim to enhance the autonomous features of unmanned surface vessels using deep learning techniques. The annotated sensor data will be made available for further research through open access. An image dataset, which includes synthetically generated weather conditions, is published alongside this article. While existing maritime datasets predominantly rely on RGB cameras, our work underscores the need for multi-modal data to advance autonomous capabilities in maritime applications.

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