A Co-Operative Autonomous Offshore System for Target Detection Using Multi-Sensor Technology

[1]  J. G. Ziegler,et al.  Optimum Settings for Automatic Controllers , 1942, Journal of Fluids Engineering.

[2]  Ivan R. Bertaska,et al.  Control of an Unmanned Surface Vehicle With Uncertain Displacement and Drag , 2017, IEEE Journal of Oceanic Engineering.

[3]  Antonio Vasilijević,et al.  Coordinated Navigation of Surface and Underwater Marine Robotic Vehicles for Ocean Sampling and Environmental Monitoring , 2017, IEEE/ASME Transactions on Mechatronics.

[4]  Jussi Aaltonen,et al.  Path-Following With LiDAR-Based Obstacle Avoidance of an Unmanned Surface Vehicle in Harbor Conditions , 2020, IEEE/ASME Transactions on Mechatronics.

[5]  Mandar A. Chitre,et al.  Robust underwater obstacle detection and collision avoidance , 2016, Auton. Robots.

[6]  Marc Carreras,et al.  Girona 500 AUV: From Survey to Intervention , 2012, IEEE/ASME Transactions on Mechatronics.

[7]  Yuanyuan Zhao,et al.  Autonomous Underwater Vehicle Navigation , 2010, IEEE Journal of Oceanic Engineering.

[8]  A. J. Healey,et al.  Multivariable sliding mode control for autonomous diving and steering of unmanned underwater vehicles , 1993 .

[9]  Thierry Soriano,et al.  Distributed Adaptive Neural Network Control Applied to a Formation Tracking of a Group of Low-Cost Underwater Drones in Hazardous Environments , 2020, Applied Sciences.

[10]  Fotis A. Papoulias BIFURCATION ANALYSIS OF LINE OF SIGHT VEHICLE GUIDANCE USING SLIDING MODES , 1991 .

[11]  Kristin Ytterstad Pettersen,et al.  Straight Line Path Following for Formations of Underactuated Marine Surface Vessels , 2011, IEEE Transactions on Control Systems Technology.

[12]  Francisco Bonin-Font,et al.  USBL Integration and Assessment in a Multisensor Navigation Approach for AUVs , 2017 .