@article{GENERAL,
      author = {van Hees, M Th and van den Broek-de Bruijn, W H},
      url = {http://library.imarest.org/record/7575},
      journal = {Conference Proceedings of INEC},
      title = {SUPREME: Submarine Space Partitioning in Rhino by  Quaestor3},
      abstract = {Within the scope of the Royal Netherlands Navy’s  Walrus class replacement programme, DMO embarked in 2015 in  developing a set of tools to generate and assess submarine  concept designs. MARIN took up the challenge to develop a  design workflow SUPREME on the basis of its Quaestor3  knowledge engineering framework [van Hees 1997, 2003,  2009]. Within this workflow a number of proprietary and  often confidential tools should be plugged in to perform  e.g. propulsion system dimensioning, weight estimation and  for assessment of trimming and compensation capabilities.  These ‘satellite’ tools are mostly developed  for, or by, DMO. As a design system, SUPREME becomes fully  operational at DMO where workflow and proprietary tools  come together. The developmental focus of MARIN is the  SUPREME workflow which deals with design knowledge  representation and design data management. The two major  challenges in its development were the topological  representation and the weight management methodology. This  paper will discuss the first one, the development of a  submarine topological representation using the CAD  system<br>
RhinocerosTM as externally controlled geometry  generator. This combines high accuracy with adaptability  and enables naval architects to constantly monitor the  weight and volume balances and trimming / compensation  capabilities of concept submarines already in the earliest  stages of design.},
      number = {GENERAL},
      recid = {7575},
      address = {2018-10-02},
}