The armored cable used in a deep-sea remotely operated vehicle (ROV) may undergo large displacement motion when subjected to dynamic actions of ship heave motion and ocean current. A novel geometrically exact finite element model for two-dimensional dynamic analysis of armored cable is presented. This model accounts for the geometric nonlinearities of large displacement of the armored cable, and effects of axial load and bending stiffness. The governing equations are derived by consistent linearization and finite element discretization of the total weak form of the armored cable system, and solved by the Newmark time integration method. To make the solution procedure avoid falling into the local extreme points, a simple adaptive stepping st...
A numerical approach for predicting motion and tension of extensible marine cables during laying ope...
ABSTRACTA set of equations of motion is derived for vibratory motions of an underwater cable connect...
We extend an idea of the modeling flexible umbilical cable using a nonlinear finite element method t...
This paper proposes a geometrically exact formulation for three-dimensional static and dynamic analy...
Ensuring the safety of umbilical cables is a core challenge in deep-sea robotics. The umbilical cabl...
To improve the safety of the launch and recovery of the deep-sea remotely operated vehicle (ROV) und...
Increasing autonomy, efficiency and safety for Remotely Operated Vehicles (ROVs) is crucial for futu...
A new finite element model of the variable-length underwater cable with geometrically nonlinear moti...
We present an idea for modeling flexible ocean umbilical cable using a nonlinear finite element meth...
This study presents a general set of three-dimensional dynamic field equations, boundary conditions ...
A two dimensional model of an anchor cable subjected to a uniform current, fixed at the sea bed and...
Marine cable-body systems deployed from surface support vessels are widely used in ocean mining. The...
Graduation date: 1983The nonlinear dynamic analysis of cable and cable-large\ud body systems subject...
Autonomous underwater vehicles (AUVs) are playing an increasingly important role in ocean exploratio...
A numerical approach for predicting motion and tension of marine cables during laying operations in ...
A numerical approach for predicting motion and tension of extensible marine cables during laying ope...
ABSTRACTA set of equations of motion is derived for vibratory motions of an underwater cable connect...
We extend an idea of the modeling flexible umbilical cable using a nonlinear finite element method t...
This paper proposes a geometrically exact formulation for three-dimensional static and dynamic analy...
Ensuring the safety of umbilical cables is a core challenge in deep-sea robotics. The umbilical cabl...
To improve the safety of the launch and recovery of the deep-sea remotely operated vehicle (ROV) und...
Increasing autonomy, efficiency and safety for Remotely Operated Vehicles (ROVs) is crucial for futu...
A new finite element model of the variable-length underwater cable with geometrically nonlinear moti...
We present an idea for modeling flexible ocean umbilical cable using a nonlinear finite element meth...
This study presents a general set of three-dimensional dynamic field equations, boundary conditions ...
A two dimensional model of an anchor cable subjected to a uniform current, fixed at the sea bed and...
Marine cable-body systems deployed from surface support vessels are widely used in ocean mining. The...
Graduation date: 1983The nonlinear dynamic analysis of cable and cable-large\ud body systems subject...
Autonomous underwater vehicles (AUVs) are playing an increasingly important role in ocean exploratio...
A numerical approach for predicting motion and tension of marine cables during laying operations in ...
A numerical approach for predicting motion and tension of extensible marine cables during laying ope...
ABSTRACTA set of equations of motion is derived for vibratory motions of an underwater cable connect...
We extend an idea of the modeling flexible umbilical cable using a nonlinear finite element method t...