Numerical analysis of error bounds in digital computation of four parameters for strapdown inertial ...
A method is developed for using the integrals of systems of nonlinear, ordinary differential equatio...
Self-starting multistep methods for numerical integration of ordinary differential equation
Numerical error comparisons for integration of near earth orbits in various coordinate system
This thesis deals primarily with solving systems of autonomous ordinary nonlinear differential equa...
The numerical integration of Newton’s equations of motion for self-gravitating systems, particularly...
Error analyses for numerically integrating first order ordinary differential equation
This investigation was undertaken to determine the usefulness of interval analysis to numerical inte...
One-step methods for numerical integration of initial value problems in ordinary differential equati...
Difference methods for asymptotic estimates of errors at numerical integration of systems of ordinar...
A new class of linear multistep methods for numerical integration of differential equations is repor...
Comparison of fourth order Runge-Kutta numerical integration technique with two numerical integratio...
[EN] As is well known, the numerical integration of the two body problem with constant step presents...
The presence of errors in the initial conditions and the different physical parameters affect to num...
textAs technological advances throughout the field of satellite geodesy improve the accuracy of sate...
Numerical analysis of error bounds in digital computation of four parameters for strapdown inertial ...
A method is developed for using the integrals of systems of nonlinear, ordinary differential equatio...
Self-starting multistep methods for numerical integration of ordinary differential equation
Numerical error comparisons for integration of near earth orbits in various coordinate system
This thesis deals primarily with solving systems of autonomous ordinary nonlinear differential equa...
The numerical integration of Newton’s equations of motion for self-gravitating systems, particularly...
Error analyses for numerically integrating first order ordinary differential equation
This investigation was undertaken to determine the usefulness of interval analysis to numerical inte...
One-step methods for numerical integration of initial value problems in ordinary differential equati...
Difference methods for asymptotic estimates of errors at numerical integration of systems of ordinar...
A new class of linear multistep methods for numerical integration of differential equations is repor...
Comparison of fourth order Runge-Kutta numerical integration technique with two numerical integratio...
[EN] As is well known, the numerical integration of the two body problem with constant step presents...
The presence of errors in the initial conditions and the different physical parameters affect to num...
textAs technological advances throughout the field of satellite geodesy improve the accuracy of sate...
Numerical analysis of error bounds in digital computation of four parameters for strapdown inertial ...
A method is developed for using the integrals of systems of nonlinear, ordinary differential equatio...
Self-starting multistep methods for numerical integration of ordinary differential equation