In recent years, the field of maritime transport systems has borne witness to remarkable progress. In particular, the importance of marine vehicles as a part of the maritime transport systems. For achieving a successful transportation in the complexity marine environment, the planning, guidance, and control of the marine vehicles are crucial. An advanced control system of the marine vehicles can improve the efficiency of the whole transport system. Thus, the research topic, aptly titled “Advances Techniques for Maritime Transport Systems: Planning, Guidance, Control for Marine Vehicles” seeks to the potential approaches that will promote the engineering application of marine vehicles.
This research topic serves as an invaluable platform for researchers and engineers to present the latest technological breakthroughs in the realm of marine vehicles. Its primary aim is to tackle the myriad challenges that marine vehicles encounter in dynamic and unpredictable environments. Here, factors like ocean currents, capricious weather conditions, and unexpected obstacles take on pivotal roles, demanding innovative solutions.
Contributions to this research topic are including two aspects, theoretical advancements and practical engineering application. These contributions will serve to fuel interdisciplinary discussions and facilitate the exchange of knowledge among researchers hailing from diverse fields. In particular, it will be a forum for experts in robotics, marine engineering, control systems, and artificial intelligence to come together, sharing their insights, and collectively propelling marine vehicle technology to new heights.
Areas to be covered in this Research Topic may include but are not limited to:
- Marine vehicles for the maritime transport system
- Path Planning and Trajectory Optimization for the marine vehicles
- Guidance and Control with the advanced techniques;
- Multi-Vehicles cooperative in maritime transport mission;
- Autonomous transportation under the multi-obstacle scenarios;
- Intelligent maritime transportation with clean energy.
Keywords:
Marine Vehicles, Maritime Transportation, Trajectory Optimization, Sensor Fusion, Multi-Obstacle Scenarios
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
In recent years, the field of maritime transport systems has borne witness to remarkable progress. In particular, the importance of marine vehicles as a part of the maritime transport systems. For achieving a successful transportation in the complexity marine environment, the planning, guidance, and control of the marine vehicles are crucial. An advanced control system of the marine vehicles can improve the efficiency of the whole transport system. Thus, the research topic, aptly titled “Advances Techniques for Maritime Transport Systems: Planning, Guidance, Control for Marine Vehicles” seeks to the potential approaches that will promote the engineering application of marine vehicles.
This research topic serves as an invaluable platform for researchers and engineers to present the latest technological breakthroughs in the realm of marine vehicles. Its primary aim is to tackle the myriad challenges that marine vehicles encounter in dynamic and unpredictable environments. Here, factors like ocean currents, capricious weather conditions, and unexpected obstacles take on pivotal roles, demanding innovative solutions.
Contributions to this research topic are including two aspects, theoretical advancements and practical engineering application. These contributions will serve to fuel interdisciplinary discussions and facilitate the exchange of knowledge among researchers hailing from diverse fields. In particular, it will be a forum for experts in robotics, marine engineering, control systems, and artificial intelligence to come together, sharing their insights, and collectively propelling marine vehicle technology to new heights.
Areas to be covered in this Research Topic may include but are not limited to:
- Marine vehicles for the maritime transport system
- Path Planning and Trajectory Optimization for the marine vehicles
- Guidance and Control with the advanced techniques;
- Multi-Vehicles cooperative in maritime transport mission;
- Autonomous transportation under the multi-obstacle scenarios;
- Intelligent maritime transportation with clean energy.
Keywords:
Marine Vehicles, Maritime Transportation, Trajectory Optimization, Sensor Fusion, Multi-Obstacle Scenarios
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.