Most maritime products are typically associated with large investments and are seldom built in large series. Where other modes of transport benefit from the economy of series production, this is not the case for maritime products which are typically designed to refined customer requirements increasingly determined by the need for high efficiency, flexibility and low environmental impact at a competitive price. Product design is thus subject to global trade-offs among traditional constraints (customer needs, technical requirements, cost) and new requirements (life-cycle, environmental impact, rules). One of the most important design objectives is to minimise total cost over the economic life cycle of the product, taking into account maintenance, refitting, renewal, manning, recycling, environmental footprint, etc. The trade-off among all these requirements must be assessed and evaluated in the first steps of the design process on the basis of customer / owner specifications. Advanced product design needs to adapt to profound, sometimes contradicting requirements and assure a flexible and optimised performance over the entire life-cycle for varying operational conditions. This calls for greatly improved design tools including multi-objective optimisation and finally virtual testing of the overall design and its components. HOLISHIP (HOLIstic optimisation of SHIP design and operation for life-cycle) addresses these urgent industry needs by the development of innovative design methodologies, integrating design requirements (technical constraints, performance indicators, life-cycle cost, environmental impact) at an early design stage and for the entire life-cycle in an integrated design environment. Design integration will be implemented in practice by the development of integrated design s/w platforms and demonstrated by digital mock-ups and industry led application studies on the design and performance of ships, marine equipment and maritime assets in general.

The RAMSSES project has the strategic objective to obtain recognition and an established role for advanced materials in the European maritime industry. To achieve this the project will demonstrate the benefits of new materials in thirteen industry led and market driven demonstrator cases along the entire maritime process chain from components through equipment and ship integration to repair. Those demonstrators will reach a high Technology Readiness Level between TRL 6 and 8 and will either be installed on shore under close to reality conditions or validated on board. The technical performance as well as life cycle cost efficiency and environmental impact will be assessed and validated by specific expert teams following common procedures and testing standards. The test program will be based on risk assessment and a widest possible use of existing test results and supervised by rule making bodies, such ensuring relevance for a commercial approval beyond the project. Test data as well as best practice procedures on design, qualification and production of new material solutions will be made available in a maritime test database and a central knowledge repository, thus allowing fast qualification and approval of similar maritime applications in future. RAMSSES also aims to improve the innovation capabilities of the European maritime sector by elaborating terms of reference of a future use of the test database and the knowledge repository beyond the project. In cooperation with other initiatives, it will contribute to the formation of a maritime materials innovation Platform including continuous technology transfer from and to other industry sectors.