Tesis:
Error estimation and adaptivity in deformable solid dynamics
- Autor: LACOMA ALLER, Luis María
- Título: Error estimation and adaptivity in deformable solid dynamics
- Fecha: 2006
- Materia: Sin materia definida
- Escuela: E.T.S. DE INGENIEROS DE CAMINOS, CANALES Y PUERTOS
- Departamentos: MECANICA DE MEDIOS CONTINUOS Y TEORIA DE ESTRUCTURAS
- Acceso electrónico:
- Director/a 1º: ROMERO OLLEROS, Ignacio
- Resumen: In this dissertation we study the error due to the temporal discretization in numerical simulations of deformable solid dynamics. For that, we start from the semidiscrete equations of motion and analyze the conditions that an estimator must satisfy to compute accurate results. With them, two typical error estimators are analyzed. Later. we propose a novel methodology for the formulation of a posteriori error estimators for the most common time-stepping methods employed in solid and structural dynamics. The estimators obtained by means of this methodology are accurate even in non-smmoth problems, they can be applied both in linear and non-linear problems and can be easily implemented in finite element codes. The proposed methodology is applied to construct error estimators for Newmark's method and for the HHT method. The good performance of these new estimators is investigated in several numerical simulations. The information given by these estimators is the starting point for developing adaptive algorithms. They change automatically the time step size to ensure that the error is smaller than a tolerance, but keeping the computational cost as low as possible. The algorithms presented are based on control theory. and different techniques applied in this field are employed to optimize the adaptive strategies. The final adaptive schemes are very simple formulas which are easily implemented in existing codes. Three non-linear numerical examples are presented to validate the good behaviour of the adaptive algorithms described.