arxiv_ml 90% Match Research Paper Robotics engineers,Marine researchers,Communication engineers,AI researchers in multi-agent systems 2 weeks ago

SafeDiver: Cooperative AUV-USV Assisted Diver Communication via Multi-agent Reinforcement Learning Approach

reinforcement-learning › multi-agent

📄 Abstract

Abstract: As underwater human activities are increasing, the demand for underwater communication service presents a significant challenge. Existing underwater diver communication methods face hurdles due to inherent disadvantages and complex underwater environments. To address this issue, we propose a scheme that utilizes maritime unmanned systems to assist divers with reliable and high-speed communication. Multiple AUVs are equipped with optical and acoustic multimodal communication devices as relay nodes, providing adaptive communication services based on changes in the diver's activity area. By using a multi-agent reinforcement learning (MARL) approach to control the cooperative movement of AUVs, high-speed and reliable data transmission between divers can be achieved. At the same time, utilizing the advantages of on-demand deployment and wide coverage of unmanned surface vehicles (USVs) as surface relay nodes to coordinate and forward information from AUVs, and controlling AUVs to adaptively select relay USV nodes for data transmission, high-quality communication between divers and surface platform can be achieved. Through simulation verification, the proposed scheme can effectively achieve reliable and high-speed communication for divers.

Authors (5)

Tinglong Deng

Hang Tao

Xinxiang Wang

Yinyan Wang

Hanjiang Luo

Submitted

September 15, 2025

arXiv Category

cs.MA

arXiv PDF

Key Contributions

This paper proposes a cooperative AUV-USV system assisted by Multi-agent Reinforcement Learning (MARL) to provide reliable, high-speed underwater communication for divers. Multiple AUVs act as adaptive relay nodes using multimodal communication, while USVs provide surface relay and coordination, enabling robust data transmission in complex underwater environments.

Business Value

Enables safer and more efficient underwater operations by providing robust communication for divers, crucial for industries like offshore energy, marine research, and underwater construction. This can improve safety, productivity, and data collection capabilities.

Paper Metadata

Innovation Type

System Design & Algorithmic

Deployment Feasibility

Medium, requires specialized AUV and USV hardware, and sophisticated MARL control systems. Challenges include underwater navigation, power management, and communication reliability.

Limitations Addressed

Hurdles in existing underwater diver communication methods,Complex and challenging underwater environments,Need for reliable and high-speed data transmission underwater

Performance Gains

Achieving high-speed and reliable data transmission between divers

Technical Tags

Multi-agent Reinforcement Learning (MARL)Underwater CommunicationAUVUSVCooperative ControlOptical CommunicationAcoustic CommunicationRelay NodesAdaptive CommunicationData Transmission

Research Topics

Underwater RoboticsMulti-agent SystemsCommunication NetworksReinforcement LearningRobotics Control

Methods & Architectures

Multi-agent Reinforcement Learning (MARL)Cooperative control algorithmsAdaptive communication strategies MARL agents controlling AUVs

Applications & Tasks

Underwater exploration Marine research Subsea operations Underwater communication Providing reliable and high-speed underwater communication for diversOvercoming limitations of existing underwater communication methodsCoordinating multiple autonomous underwater vehicles (AUVs) and unmanned surface vehicles (USVs) Underwater diver communicationData relayCooperative navigation and control of AUVs/USVs

Related Fields

RoboticsOceanographyCommunication EngineeringArtificial IntelligenceControl Systems

Keywords

Underwater CommunicationAUVUSVMulti-agent Reinforcement LearningMARLDiver CommunicationRoboticsCooperative ControlRelay NetworksMarine TechnologyData TransmissionAdaptive Systems

Academic Context

#Underwater Robotics#Multi-agent Systems#Communication Networks#Reinforcement Learning#Robotics Control

Commercial Potential

Potential Products

Underwater communication systems for diversAutonomous underwater exploration platformsRemote monitoring systems for marine environments

Target Industries

Marine and Oceanographic ResearchOffshore Energy (Oil & Gas, Renewables)Underwater Construction and MaintenanceDefense and SecurityAquaculture

Use Case Examples

Enabling real-time voice and data communication for saturation diversFacilitating remote operation of underwater vehiclesSupporting scientific data collection during underwater expeditions

Competitive Edge

Offers a novel approach to underwater communication by integrating MARL for cooperative control of AUVs and USVs, aiming for higher reliability and speed than traditional acoustic modems or tethered systems.

Market Opportunity

Growing demand for advanced underwater technologies.

Revenue Models

System salesservice contracts for underwater operations.

Resource Requirements

Compute Needs

Significant for MARL training, moderate for real-time control.

Data Requirements

Simulation data for MARL training, real-world underwater communication data.

Deployment Constraints

Requires robust underwater vehicles, reliable power sources, and effective communication protocols. Environmental factors (water clarity, currents) can impact performance.

Scalability

Scalability depends on the MARL algorithm and the number of agents (AUVs/USVs).

Regulatory Considerations

Maritime regulationssafety standards for autonomous vehicles.

Production Readiness

Maturity Level

Research

Time to Market

Medium to Long (requires significant hardware and system integration)

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