In this thesis, a new approach for the dynamic time domain simulation of highly flexible maritime continua such as moorings, anchor lines, tow lines, tethered vehicles as well as nets for fishing, cages in aquacultures or plankton sampling is presented and evaluated. Here, in contrast to the methods typically applied, the algorithm is neglecting deformations in the longitudinal directions of the investigated continua. In doing so, much larger time step sizes can be achieved, since the high eigenfrequencies introduced from longitudinal vibrations of the systems are thus repressed.
Numerically efficient algorithms for the coupled non-linear time domain simulation of fully submerged highly flexible maritime systems
2022
Miscellaneous
Electronic Resource
English
A Numerically Efficient Algorithm for Steady-State Response of Flexible Mechanism Systems
Online Contents | 1993
|Time-Evolution of Maritime Domain Awareness
NTIS | 2009
|CORRESPONDENCE - Numerically Robust Implementation of Multiple-Model Algorithms
Online Contents | 2000
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