Heuristic Surface Path Planning Method for AMV-Assisted Internet of Underwater Things

Abstract: Ocean exploration is one of the fundamental issues for the sustainable development of human society, which is also the basis for realizing the concept of the Internet of Underwater Things (IoUT) applications, such as the smart ocean city. The collaboration of heterogeneous autonomous marine vehicles (AMVs) based on underwater wireless communication is known as a practical approach to ocean exploration, typically with the autonomous surface vehicle (ASV) and the autonomous underwater glider (AUG). However, the … Show more

“…This is utilized to attain an optimal selection of coverage-aware target nodes and to devise trajectories for multiple AUVs. Introducing a heterogeneous USV-AUV system to the data collection, the authors of [87] introduced a modified shuffled frog-leaping algorithm (SFLA). This alteration is applied to optimize the coordination schedule between USVs and multiple AUVs.…”

Unlocking the Ocean 6G: A Review of Path-Planning Techniques for Maritime Data Harvesting Assisted by Autonomous Marine Vehicles

“…This is utilized to attain an optimal selection of coverage-aware target nodes and to devise trajectories for multiple AUVs. Introducing a heterogeneous USV-AUV system to the data collection, the authors of [87] introduced a modified shuffled frog-leaping algorithm (SFLA). This alteration is applied to optimize the coordination schedule between USVs and multiple AUVs.…”

Unlocking the Ocean 6G: A Review of Path-Planning Techniques for Maritime Data Harvesting Assisted by Autonomous Marine Vehicles

Multi-AUV Data Retrieval Method Based on Multiple Signal Classification Algorithm