Time-domain simulations
KEY-ENABLING TECHNOLOGY
Time-domain simulations study the motions of a structure or ship based on the force and momentum balance over a long period of time. We use these simulations for applications in engineering, experiments, simulations and on-board.
FORCE AND MOTION SIMULATION
Although time-domain simulation is often less accurate than CFD, model tests or full-scale monitoring, it does allow a large number of simulations to be carried out for different environmental conditions and circumstances. This enabling research programme focuses on developing a framework for all time-domain simulations. The tools that we develop are used in numerical, model-scale tests and full-scale monitoring projects for the purpose of design verification, operational training and operational/on-board support.
Contact
Henk Prins
Manager
SUB-PROGRAMMES
INTEGRATION AND UNIFICATION
This sub-programme deals with the integration of existing time-domain simulations tools into the standardised XMF framework, and with unifying the models used in different application fields.
INTEGRATION AND UNIFICATION
This sub-programme deals with the integration of existing time-domain simulations tools into the standardised XMF framework, and with unifying the models used in different application fields.
FRAMEWORK DEVELOPMENTS
This sub-programme deals with developments of the core framework of our time-domain simulations.
FRAMEWORK DEVELOPMENTS
This sub-programme deals with developments of the core framework of our time-domain simulations.
DEVELOPMENT AND USER PROCESS
This sub-programme deals with the standardisation of a development and user process of the XMF framework and models. The development process aims for rapid prototyping, and quality assurance. The user process aims at flexibility, yet at minimising the probability of mistakes.
DEVELOPMENT AND USER PROCESS
This sub-programme deals with the standardisation of a development and user process of the XMF framework and models. The development process aims for rapid prototyping, and quality assurance. The user process aims at flexibility, yet at minimising the probability of mistakes.
FAST SMALL SHIP SIMULATOR
This FSSS is developed by MARIN together with SME's Cruden and Tree-C as part of the CODEMO-project. In CODEMO-projects SME's and research institutes develop demonstrators relevant for our national defence organisation. DMO link: https://youtu.be/5zjrblSPHlQ