Add to ORKGAn inverse analysis is conducted for the estimation of drag coefficient and wake’s width in incompressible turbulent flows over the moving underwater bodies. The inverse analysis uses the laws of momentum and mass conservation for a control volume to estimate the drag coefficient and the wake’s width from the measured velocity in the wake. The drag coefficient and wake’s width are determined as unknown parameters by the Levenberg–Marquardt algorithm. The proposed inverse method is applicable for an environment without boundaries (e.g., the sea). Several experiments are conducted to evaluate the developed inverse algorithm. The wake velocity behind a cylinder located in the flow field is measured by a calibrated pitot tube and is used as an ...
The hydrodynamic characteristics of autonomous underwater vehicles (AUVs) play a significant role in...
Hydrodynamic coefficients are essential for the development of underwater robots; in particular, for...
Autonomous underwater vehicles (AUVs) have changed the way marine environment is surveyed, monitored...
A good dynamics model is essential and critical for the successful design of navigation and control ...
AUVs are the most suitable tool for conduction survey concerning with global environmental problems....
This thesis uses the system identification techniques to measure the submarine’s resistance and prop...
The accuracy of experimental procedure used to calculate the drag coefficient of an Autonomous under...
The determination of hydrodynamic coefficients of full scale underwater vehicles using system identi...
Determination of hydrodynamic coefficients is a vital part of predicting the dynamic behavior of an ...
Dynamics model is essential and critical for a successful navigation and control system design of an...
The hydrodynamic shape of high speed diver propulsion vehicle (DPV) is very important to its perform...
The calculation of the drag force is a fundamental requirement in the design of any submerged system...
This work introduces a new method to calculate the water velocity components of a turbulent water co...
This paper addresses the problem of autonomous underwater vehicle (AUV) modeling and parameter estim...
The next generation of Autonomous Underwater Vehicles (AUV) can impact our observation of the world....
The hydrodynamic characteristics of autonomous underwater vehicles (AUVs) play a significant role in...
Hydrodynamic coefficients are essential for the development of underwater robots; in particular, for...
Autonomous underwater vehicles (AUVs) have changed the way marine environment is surveyed, monitored...
A good dynamics model is essential and critical for the successful design of navigation and control ...
AUVs are the most suitable tool for conduction survey concerning with global environmental problems....
This thesis uses the system identification techniques to measure the submarine’s resistance and prop...
The accuracy of experimental procedure used to calculate the drag coefficient of an Autonomous under...
The determination of hydrodynamic coefficients of full scale underwater vehicles using system identi...
Determination of hydrodynamic coefficients is a vital part of predicting the dynamic behavior of an ...
Dynamics model is essential and critical for a successful navigation and control system design of an...
The hydrodynamic shape of high speed diver propulsion vehicle (DPV) is very important to its perform...
The calculation of the drag force is a fundamental requirement in the design of any submerged system...
This work introduces a new method to calculate the water velocity components of a turbulent water co...
This paper addresses the problem of autonomous underwater vehicle (AUV) modeling and parameter estim...
The next generation of Autonomous Underwater Vehicles (AUV) can impact our observation of the world....
The hydrodynamic characteristics of autonomous underwater vehicles (AUVs) play a significant role in...
Hydrodynamic coefficients are essential for the development of underwater robots; in particular, for...
Autonomous underwater vehicles (AUVs) have changed the way marine environment is surveyed, monitored...