This chapter elaborates the bottom-up approach taken within the European R&DResearch and Development (R&D)project HOLISHIPHOLIstic optimisation of SHIP design and operation for lifecycle (EU H2020 project) (HOLISHIP) to flexibly integrate and utilize software tools and systems of tools for the design, analysis and optimization of maritime assets. The focus of the project HOLISHIP and its bottom-up integration platform(s) was the design of maritime assets at the early design phases in heterogeneous environments. As it is often the situation, tools and systems come from different developers, companies and research institutes. So far they have been mostly used as stand-alone applications with the design team being responsible for proper tool execution, data exchange and management. Within HOLISHIP the tools and systems were coupled to CAESESComputer Aided Engineering System Empowering Simulation by FRIENDSHIP SYSTEMS, Germany (CAESES)®, i.e., a cross-platformPlatformProcess Integration and Design OptimizationProcess Integration and Design Optimization (PIDO) (PIDO) environment that also provides comprehensive Computer Aided Design (CAD)Computer Aided Design (CAD) functionality for the parametric modellingParametric modelling of shapes. Any tool or system that can be run in batch-mode can be coupled to CAESESComputer Aided Engineering System Empowering Simulation by FRIENDSHIP SYSTEMS, Germany (CAESES) and can be set up in order to exchange data with other tools, supporting the assembly of sophisticated synthesis models. Further developments as were needed for the application casesApplication Case (AC)(AC) of the HOLISHIPHOLIstic optimisation of SHIP design and operation for lifecycle (EU H2020 project) (HOLISHIP) project will be presented, complementing the discussion given in Harries and Abt (A holistic approach to ship design, Vol. 1: optimisation of ship design and operation for life cycle. SPRINGER Publishers, 2019).
Integration of Tools for Application Case Studies
A Holistic Approach to Ship Design ; Chapter : 2 ; 7-45
2021-06-22
39 pages
Article/Chapter (Book)
Electronic Resource
English
Process Integration and Design Optimization (PIDO) , Computer Aided Engineering (CAE) , Simulation-driven Design (SDD) , Synthesis model , Surrogate model , Parametric model , Tool coupling , Collaboration Engineering , Engineering Design , Transportation , Computer-Aided Engineering (CAD, CAE) and Design , Optimization , Engineering Fluid Dynamics
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