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Published April 17, 2023 | Version v1
Conference paper Open

Uplink NOMA for UAV-Aided Maritime Internet-of-Things

  • 1. Department of Ports Management and Shipping, National and Kapodistrian University of Athens, Greece
  • 2. Department of Port Management & Shipping, National and Kapodistrian University of Athens, Greece
  • 3. Aristotle University of Thessaloniki, Greece

Description

Maritime activities are vital for economic growth, being further accelerated by various emerging maritime Internet of 
Things (IoT) use cases, including smart ports, autonomous navigation, and ocean monitoring systems. However, broadband, low-delay, and reliable wireless connectivity to the ever-increasing number of vessels, buoys, platforms and sensors in maritime communication networks (MCNs) has not yet been achieved. Towards this end, the integration of unmanned aerial vehicles (UAVs) in MCNs provides an aerial dimension to current deployments, relying on shore-based base stations (BSs) with limited coverage and satellite links with high latency. In this work, a maritime IoT topology is examined where direct uplink communication with a shore BS cannot be established due to excessive pathloss. In this context, we employ multiple UAVs for end-to-end connectivity, simultaneously receiving data from the maritime IoT nodes, following the non-orthogonal multiple access (NOMA) paradigm. In contrast to other UAV-aided NOMA schemes in maritime settings, dynamic decoding ordering at the UAVs is used to improve the performance of successive interference cancellation (SIC), considering the rate requirements and the channel state information (CSI) of each maritime node towards the UAVs. Moreover, the UAVs are equipped with buffers to store data and provide increased degrees of freedom in opportunistic UAV selection. Simulations reveal that the proposed opportunistic UAV-aided NOMA improves the average sum-rate of NOMA-based maritime IoT communication, leveraging the dynamic decoding ordering and caching capabilities of the UAVs.

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Additional details

Funding

ICOS – Towards a functional continuum operating system 101070177
European Commission