Hangil Joe scite author profile

We propose an integral sliding mode controller (ISMC) to stabilse an autonomous underwater vehicle (AUV) which is subject to modelling errors and often suffers from unknown environmental disturbances. The ISMC is effective in compensating for the uncertainties in the hydrodynamic and hydrostatic parameters of the vehicle and rejecting the unpredictable disturbance effects due to ocean waves, tides and currents. The ISMC is comprised of an equivalent controller and a switching controller to suppress the parameter uncertainties and external disturbances, and its closed-loop system is exponentially stable. Numerical simulations were performed to validate the proposed control approach, and experimental tests using Cyclops AUV were carried out to demonstrate its practical feasibility.

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Development of hovering type AUV “Cyclops” and its performance evaluation using image mosaicing

Pyo

Cho

Joe

et al. 2015

Ocean Engineering

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In this paper, a hovering-type autonomous underwater vehicle called Cyclops is introduced. Because of the symmetric body structure and thruster configuration of Cyclops, it is specially designed to utilize a lawnmower trajectory without changing its heading direction. This movement is effective at reducing the dead reckoning error and obtaining source images with homogeneous optical characteristics for underwater image mosaicing.

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Acoustic beam profile-based rapid underwater object detection for an imaging sonar

Cho

Joe

et al. 2014

J Mar Sci Technol

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Hangil Joe

Time-Delay Controller Design for Position Control of Autonomous Underwater Vehicle Under Disturbances

Second-order sliding-mode controller for autonomous underwater vehicle in the presence of unknown disturbances

Integral sliding mode controller for precise manoeuvring of autonomous underwater vehicle in the presence of unknown environmental disturbances

Development of hovering type AUV “Cyclops” and its performance evaluation using image mosaicing

Acoustic beam profile-based rapid underwater object detection for an imaging sonar

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