A fully interactive dynamic simulation of a semi-submersible towing a large towfish

Seto, M.T.; Watt, George D.; Hopkin, David

doi:10.1109/oceans.1999.800161

Cited by 8 publications

(9 citation statements)

References 4 publications

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“…The RMV and VDT hull hydrodynamics (through hydrodynamic coefficients); RMV and VDT control planes laws (through control gain matrices) and hydrodynamics(through hydrodynamic coefficents); RMV and VDT statics (weight/balance, buoyancy, etc.) are modelled [5,6].…”

Section: B Componentsmentioning

confidence: 99%

“…Aspects of SIMRMS were previously validated [5,6]. This includes the horizontal plane dynamics which tie together Dorado speed over ground, engine speed, cable tension, and the propulsion model.…”

Section: Validationmentioning

confidence: 99%

“…As well, Dorado's ability to achieve its trajectory line-following between waypoints, while under tow, and the resulting Dorado yaw and roll angle, etc. The VDT dynamics and hydrodynamics were also validated in the earlier bodies of work [5,6].…”

Section: Validationmentioning

confidence: 99%

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Modelling variable length tows and altitude-keeping with the Canadian Remote Minehunting and Disposal System

Seto¹,

Hopkin²

2008

Oceans 2008

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The minehunting scenario of a surface water platform towing, and mutually interacting with, its towbody in a maneuver with variable cable lengths and altitude-keeping to an arbitrary terrain is a realistic yet challenging dynamic situation to model. This paper describes and reports on developments of the SIMRMS modelling tool with emphasis on this scenario. The methodologies used are discussed as well as their validation against full scale sea trials data. To date, the authors have not seen such modelling capabilities for interactive tow cable systems reported in the literature.978-1-4244-2620-

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Section: B Componentsmentioning

confidence: 99%

Section: Validationmentioning

confidence: 99%

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Modelling variable length tows and altitude-keeping with the Canadian Remote Minehunting and Disposal System

Seto¹,

Hopkin²

2008

Oceans 2008

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“…USVs are suitable for use in data collection under adverse weather conditions [7] . USVs are subjected to external disturbances attributed to unforeseen complex sea states because of the allowed shallow submerging water area.…”

Section: Introductionmentioning

confidence: 99%

“…A USV system can be considered as one semi-submersible autonomous underwater vehicle system, the depth control of which is difficult to perform because of strong external disturbances from the sea surface. Moreover, a USV system is a strong coupled system, which causes the design of a USV controller [6][7] to be complex.…”

Section: Introductionmentioning

confidence: 99%

Identification state feedback control for the depth control of the studied underwater semi-submersible vehicle

Zhou

et al. 2015

2015 IEEE International Conference on Cyber Technology in Automation, Control, and Intelligent Systems (CYBER)

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This study focuses on the depth control of an unmanned semi-submersible vehicle (USV), the submersible depth of which should not exceed 3 meters to make the depth control performance robust to environmental disturbances. Depth control performance, including overshoot values and static state error of depth, should be limited within pre-determined limits; otherwise, a venture issue may occur in the USV system. Therefore, achieving the desired performance even with unexpected sea wave disturbances to the USV system remains a challenge. Moreover, some model parameters are unknown. The control parameters of the improved identification state feedback control are presented for the USV diving plane control. Lake trials are performed to validate that the suggested controller has good control performances and strong immunity to couple state surge speed and the lake environments. Keywords-unmanned semi-submersible vehicle; identificationcontrol; multi-model switching technology; depth control; sea trial Engineering Research center of Process and Equipment for Renewable Energy, Eas China Institute of Technology (No.

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Parametric Study for the Steady-State Equilibrium of a Towfish

Cammarata

Sinatra

2015

J Intell Robot Syst

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A fully interactive dynamic simulation of a semi-submersible towing a large towfish

Cited by 8 publications

References 4 publications

Modelling variable length tows and altitude-keeping with the Canadian Remote Minehunting and Disposal System

Modelling variable length tows and altitude-keeping with the Canadian Remote Minehunting and Disposal System

Identification state feedback control for the depth control of the studied underwater semi-submersible vehicle

Parametric Study for the Steady-State Equilibrium of a Towfish

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