2018
DOI: 10.3390/s18082574
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Modeling and Control of a Micro AUV: Objects Follower Approach

Abstract: This work describes the modeling, control and development of a low cost Micro Autonomous Underwater Vehicle (μ-AUV), named AR2D2. The main objective of this work is to make the vehicle to detect and follow an object with defined color by means of the readings of a depth sensor and the information provided by an artificial vision system. A nonlinear PD (Proportional-Derivative) controller is implemented on the vehicle in order to stabilize the heave and surge movements. A formal stability proof of the closed-lo… Show more

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Cited by 11 publications
(4 citation statements)
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“…An alternative approach is the use of a camera or set of cameras to identify features in the environment or targets for the AUV mission. Monroy et al [72] developed a micro AUV with an artificial vision system that allows it to follow an object by its color. A Hue Saturation Value (HSV) filter was implemented on the artificial vision system and a non-linear proportional-derivative controller on the vehicle to stabilize the heave and surge movements.…”
Section: Optical Navigationmentioning
confidence: 99%
“…An alternative approach is the use of a camera or set of cameras to identify features in the environment or targets for the AUV mission. Monroy et al [72] developed a micro AUV with an artificial vision system that allows it to follow an object by its color. A Hue Saturation Value (HSV) filter was implemented on the artificial vision system and a non-linear proportional-derivative controller on the vehicle to stabilize the heave and surge movements.…”
Section: Optical Navigationmentioning
confidence: 99%
“…The maximal dimensions of the vehicle (established as m in , , and , respectively) place it in the “mini vehicle” category [ 23 , 41 ]. According to the CAD software that was used for its conception (Solidworks™), the volume of the mini-AUV is 0.006 m , which in conjunction with its mass, kg, defines the principal moments of inertia about the axis , , and as , , and , respectively.…”
Section: Mini-auv Mathematical Modellingmentioning
confidence: 99%
“…The most common use of dynamic models in aquatic vehicles is to aid in understanding and design of control systems that automatically hold aquatic vehicle positions and velocities, e.g., [122][123][124][125]. However, there are also many examples where aquatic vehicle localisation is achieved or aided by a dynamic model [50][51][52]126,127] Localisation from a dynamic model is particularly attractive in confined spaces, because water currents are not always present and circulation pumps can often be temporarily turned off.…”
Section: Dynamic Modelsmentioning
confidence: 99%