Y Huo, X Dong, S Beatty - IEEE Internet of Things Journal, 2020 - ieeexplore.ieee.org
The rapid advancement of Internet of Things (IoT) and fifth generation and beyond technologies is transforming the marine industry and research. Our understanding of the …
X Su, L Meng, J Huang - IEEE Transactions on Vehicular …, 2020 - ieeexplore.ieee.org
Maritime networks (MNs) typically cover tens to hundreds of kilometers, which can perform global oceanic observations via the support of maritime low-latency applications. However …
Currently, the use of unmanned vehicles, such as drones, boats and ships, in monitoring tasks where human presence is difficult or even impossible raises several issues …
M Liang, X Su, X Liu, X Zhang - Journal of Internet Technology, 2020 - jit.ndhu.edu.tw
The ocean is currently crowded with vessels, including but not limited to commercial ships and submarines used for military operations or scientific investigations. Each of these …
X Su, S Jiang, D Choi - Digital Communications and Networks, 2022 - Elsevier
Abstract Mobile Edge Computing (MEC) can support various high-reliability and low-delay applications in Maritime Networks (MNs). However, security risks in computing task …
N Mishra, M Kastner, C Jahn - Changing Tides: The New Role of …, 2022 - econstor.eu
Purpose: Oceans are a dominant means for transport of goods, which in turn has caused a boom in data volumes exchanged at sea. Internet connectivity at sea is heavily reliant on …
High-speedand reliable connectivity for data communication is essential requirement, including in maritime environment. To cater this need, larger bandwidth is required. In this …
L Meng, X Su, X Zhang, C Choi, D Choi - Proceedings of the 2018 …, 2018 - dl.acm.org
Successive interference cancellation (SIC) receiver is adopted by power domain non- orthogonal multiple access (NOMA) at the receiver side as the baseline receiver scheme …