Add to ORKG545-550Present study aims to design optimal controllers based on full and reduced-order models of hybrid-driven, buoyancy-propelled underwater Glider. After establishing the glider’s mathematical model and linearizing it about the steady glide path, it is reduced to a lower order by balanced realization method. Then, optimal controllers are designed using Linear Quadratic Regulator (LQR) scheme based on original and reduced-order models to control the glider motion in vertical plane for 35° downward glide path. A satisfactory controllability and tracking is observed from the approximated model controller which confirms the advantageous characteristic of such approximation
Underwater gliders are novel underwater sensing platforms with mobility, controllability and long en...
This paper describes the dynamic model and motion simulation for propeller-driven USM underwater gl...
1008-1015The Seagull underwater glider, developed by the Shanghai Jiao Tong University, is designed ...
971-979Present study consists a mathematical model and motion control analysis for a hybrid-driven ...
Generally, underwater gliders are used for various underwater explorations. Their advantages are low...
516-526Present study consists a mathematical model and motion control analysis for a buoyancy-drive...
This paper presents the controller tracking performance of Underwater Glider. The controllers are de...
We present a linear controller and observer de-sign for autonomous underwater gliders based on a mod...
This paper describes an underwater glider motion control system intended to enhance locomotive eff...
Underwater gliders are well known as a type of enduring platform for underwater exploration; neverth...
200-206Present study consists the design of an optimal state feedback controller for our USM Under...
Underwater gliders are well known as a type of enduring platform for underwater exploration; neverth...
This thesis includes mathematical model, navigation, controller design and guidance of the underwate...
Underwater gliders are novel underwater sensing platforms with mobility, controllability and long en...
The autonomous underwater glider (AUG) demonstrates highly nonlinear and complexity in its dynamic m...
Underwater gliders are novel underwater sensing platforms with mobility, controllability and long en...
This paper describes the dynamic model and motion simulation for propeller-driven USM underwater gl...
1008-1015The Seagull underwater glider, developed by the Shanghai Jiao Tong University, is designed ...
971-979Present study consists a mathematical model and motion control analysis for a hybrid-driven ...
Generally, underwater gliders are used for various underwater explorations. Their advantages are low...
516-526Present study consists a mathematical model and motion control analysis for a buoyancy-drive...
This paper presents the controller tracking performance of Underwater Glider. The controllers are de...
We present a linear controller and observer de-sign for autonomous underwater gliders based on a mod...
This paper describes an underwater glider motion control system intended to enhance locomotive eff...
Underwater gliders are well known as a type of enduring platform for underwater exploration; neverth...
200-206Present study consists the design of an optimal state feedback controller for our USM Under...
Underwater gliders are well known as a type of enduring platform for underwater exploration; neverth...
This thesis includes mathematical model, navigation, controller design and guidance of the underwate...
Underwater gliders are novel underwater sensing platforms with mobility, controllability and long en...
The autonomous underwater glider (AUG) demonstrates highly nonlinear and complexity in its dynamic m...
Underwater gliders are novel underwater sensing platforms with mobility, controllability and long en...
This paper describes the dynamic model and motion simulation for propeller-driven USM underwater gl...
1008-1015The Seagull underwater glider, developed by the Shanghai Jiao Tong University, is designed ...