Observer-based nonlinear control of depth positioning of a spherical underwater robotic vehicle

Observer-based nonlinear control of depth positioning of a spherical underwater robotic vehicle

The analysis and design of observer-based nonlinear control of depth positioning of a spherical underwater robotic vehicle (URV) is investigated. The observer is required for estimating accurately the unknown state variables in the full-state feedback control laws developed, whereby these control la...

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Bibliographische Detailangaben
Hauptverfasser: Loh, R. N. K., Karsiti, M. N.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Approximation methods
Artificial intelligence
Electronic ballasts
Feedback control
feedback linearization
Force
observer-based nonlinear control systems
Observers
Smoothing methods
spherical URV
variable ballast
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Beschreibung
Zusammenfassung:The analysis and design of observer-based nonlinear control of depth positioning of a spherical underwater robotic vehicle (URV) is investigated. The observer is required for estimating accurately the unknown state variables in the full-state feedback control laws developed, whereby these control laws can be implemented with the unknown states replaced by their observer estimates. The input-output feedback linearization approach and design techniques are employed. Three approximation schemes for smoothing the signum function in the URV model are developed; these smoothing schemes are required for deriving the linearizing feedback control laws and the related results. Simulation results show that the introduction of observer-based nonlinear control would provide a robust method to stabilize and control the depth position of the URV.
DOI:10.1109/ICIAS.2012.6306070