References
- Abt C, Harries S. 2007. A new approach to integration of CAD and CFD for naval architects. 6th Conference Computer and IT Applications in the Maritime Industries (COMPIT); Cortona. p. 467–479. http://data.hiper-conf.info/compit2007_cortona.pdf.
- Albert S, Hildebrandt T, Harries S, Erik Bergmann E, Kovacic M. 2021. Parametric modeling and hydrodynamic optimization of an Electric Catamaran Ferry based on radial basis functions for an intuitive set-up. 20th Conference Computer and IT Applications in the Maritime Industries (COMPIT); Mülheim, p. 58–78. http://data.hiper-conf.info/compit2021_muelheim.pdf.
- Alvarez L. 2000. Design optimization based on genetic programming [PhD thesis]. University of Bradford. https://www.brad.ac.uk/staff/vtoropov/burgeon/thesis_luis/chapter3.pdf.
- Bertram V. 2003. Optimization in ship design. In Birk and Harries, p. 29–56.
- Bertram V. 2011. Practical ship hydrodynamics. Oxford: Butterworth & Heinemann.
- Bertram V. 2014. In-service optimization offered by seakeeping software. London: The Naval Architect, November, p. 18.
- Bertram V, Campana EF. 2020. Ship hull optimization – an attempt to determine position and course of the state of the art. 19th Conference Computer and IT Applications in the Maritime Industries (COMPIT); Pontignano, p. 271–279. http://data.hiper-conf.info/compit2020_pontignano.pdf.
- Birk L. 2003. Introduction to nonlinear programming. In Birk and Harries, p. 57–86.
- Birk L, Harries L. 2003. OPTIMISTIC – optimization in ship design. Mensch & Verlag. http://www.wegemt.com/download/wegemt/39th_WEGEMT_Summer_School_on_Optimistic_Optimization_in_Marine_Design.pdf.
- Birk L, Harries S. 2000. Automated optimization – A complementing technique for the hydrodynamic design of ships and offshore structures. 1st Conference Computer and IT Applications in the Maritime Industries (COMPIT); Potsdam, p. 72–90. http://data.hiper-conf.info/compit2000_potsdam.pdf.
- Buhaug Ø, Corbett JJ, Endresen Ø, Eyring V, Faber J, Hanayama S, Lee DS, Lee D, Lindstad H, Markowska AZ, et al. 2009. Second IMO GHG study 2009. London: Int. Maritime Organization (IMO). http://www.imo.org/en/OurWork/Environment/PollutionPrevention/AirPollution/Documents/SecondIMOGHGStudy2009.pdf.
- Dawson CW. 1997. A practical computer method for solving ship wave problems. 2nd int. Conference Numerical Hydrodynamics; Berkeley. p. 30–38.
- Demirel YK, Khorasanchi M, Turan O, Incecik A, Schultz MP. 2014. A CFD model for the frictional resistance prediction of antifouling coatings. Ocean Eng. 89:21–31. doi:10.1016/j.oceaneng.2014.07.017. https://pure.strath.ac.uk/portal/files/41144140/Demirel_etal_OE2014_CFD_model_frictional_resistance_prediction_antifouling.pdf.
- Diez M, Peri D. 2009. Global optimization algorithms for robust optimization in naval design. 8th Conference Computer and IT Applications in the Maritime Industries (COMPIT); Budapest. p. 296–310. http://data.hiper-conf.info/compit2009_budapest.pdf.
- Diez M, Peri D. 2010. Two-stage stochastic programming formulation for ship design optimization under uncertainty. 9th Conference Computer and IT Applications in the Maritime Industries (COMPIT); Gubbio. p. 76–89. http://data.hiper-conf.info/compit2010_gubbio.pdf.
- Diez M, Peri D. 2011. Optimal hull-form design subject to epistemic uncertainty. 10th Conference Computer and IT Applications in the Maritime Industries (COMPIT); Berlin. p. 245–252. http://data.hiper-conf.info/compit2011_berlin.pdf.
- Giassi A, Maisonneuve JJ, Bennis F. 2003. Multidisciplinary design optimisation and robust design approaches applied to the concurrent design. 2nd Conference Computer and IT Applications in the Maritime Industries; Hamburg. p. 162–174. http://data.hiper-conf.info/compit2003_hamburg.pdf.
- Harries S. 1998. Parametric design and hydrodynamic optimization of ship hull forms [PhD thesis]. TU Berlin, Mensch & Buch Verlag.
- Harries S. 2003. Geometric modeling and optimization. In Birk and Harries; p. 115–138.
- Harries S. 2014. Practical shape optimization using CFD. Potsdam: Whitepaper, Friendship Systems. https://www.caeses.com/wp-content/uploads/2014/11/PracticalShapeOptimizationUsingCFD_Whitepaper_FRIENDSHIP-SYSTEMS_Nov2014.pdf?pk_c=whitepaper-download-nov-2014.
- Harries S, Abt C, Brenner M. 2015. Upfront CAD – parametric modeling techniques for shape optimization. International Conference Evolutionary and Deterministic Methods for Design, Optimization and Control with Applications to Industrial and Societal Problems (EUROGEN); Glasgow. p. 1–20.
- Hauschulz S, Harries S, Thies F, Von Zadow H. 2022. Web-based microservices for fast modeling and easy collaboration. 14th Symposium High-Performance Marine Vehicles (HIPER); Cortona. p. 136–147.
- Heimann J. 2005. CFD based optimization of the wave-making characteristics of ship hulls (Dissertation [Ph.D. Thesis]). Department of Naval Architecture and Ocean Engineering, Technical University Berlin, ISBN 3-89820-445-6.
- Heimann J. 2007. CFD-based optimization of the wave-making characteristics of ship hulls. Proc. 101. Annual Meeting of the German Society for Maritime Technology (STG), Vol. 100; Hamburg.
- Heimann J, Hutchison BL, Racine BJ. 2008. Application of the free-wave spectrum to minimize and control wake wash. SNAME annual Meeting & Expo; Houston. http://www.sname.org/AM2008/papers/049.pdf.
- Hildebrandt T, Reyer M. 2015. Business and technical adaptivity in marine CFD simulations – bridging the gap. 14th Conference Computer and IT Applications in the Maritime Industries (COMPIT); Ulrichshusen. p. 394–406. http://data.hiperconf.info/compit2015_ulrichshusen.pdf.
- Hochkirch K. 2017. Optimization of ships with asymmetric aftbodies. Hamburg: Whitepaper DNV GL. https://www.dnvgl.com/maritime/publications/optimization-of-ships-with-asymmetric-aftbodies.html.
- Hochkirch K, Bertram V. 2012. Hull optimization for fuel efficiency – past, present and future. 11th Conference Computer and IT Applications in the Maritime Industries (COMPIT); Liege. p. 39–49. http://data.hiper-conf.info/compit2012_liege.pdf.
- Hochkirch K, Hahn C. 2017. Cloud-based numerical towing tanks – anytime, anywhere and for anybody. 11th Symposium High-Performance Marine Vehicles (HIPER); Zevenwacht. p. 66–69. http://data.hiper-conf.info/Hiper2017_Zevenwacht.pdf.
- Hochkirch K, Heimann J, Bertram V. 2013. Hull optimization for operational profile – The next game level. 5th International Conference of Computational Methods in Marine Engineering (MARINE); Rome. p. 81–88.
- Hochkirch K, Mallol B. 2013. On the importance of full-scale CFD simulations for ships. 12th Conference Computer and IT Applications in Maritime Industries (COMPIT); Cortona. p. 85–95. http://data.hiper-conf.info/compit2013_cortona.pdf.
- Holland JH. 1975. Adaptation in natural and artificial systems. Cambridge: MIT Press.
- Hsiung C-C. 1981. Optimal ship forms for minimum wave resistance. J Ship Res. 25(2):95–116. doi:10.5957/jsr.1981.25.2.95.
- Kantorowitz E. 1967. Mathematical definition of ship surfaces, danish ship research institute report, No. DSF-14. Copenhagen: Danish Technical Press.
- Kleinsorge E, Lindner H, Wagner J, Bronsart R. 2016. Ship hull form optimization using scenario methods. PRADS Conference, Copenhagen. https://www.lsb.uni-rostock.de/fileadmin/uni-rostock/Alle_MSF/LSB/Publikationen/PRADS_066.pdf.
- Krapp A, Bertram V. 2016. Hull performance analysis – aspects of speed-power reference curves. 1st Hull Performance & Insight Conference (HullPIC); Pavone. p. 41–48. http://data.hullpic.info/HullPIC2016.pdf.
- Maisonneuve J. 2002. Towards ship performance improvement using modeFRONTIER. 5th numerical Towing Tank Symp. (NuTTS); Pornichet. http://www.uni-due.de/imperia/md/content/ist/nutts_05_2002_pornichet.pdf.
- Nowacki H. 2003. Design synthesis and optimization – an historical perspective. In Birk and Harries (2003), p. 1–28.
- Nowacki H. 2010. Five decades of computer-aided ship design. Comput-Aided Des. 42(11):956–969. doi:10.1016/j.cad.2009.07.006.
- Nowacki H, Bloor MIG, Oleksiewicz B. 1995. Computational geometry for ships. Munich: World Scientific Publishing.
- Nowacki H, Westgaard G, Heimann J. 1998. Creation of fair surfaces based on higher order fairness measures with interpolation constraints. Proceeding International Workshop on Creating Fair and Shape-Preserving Curves and Surfaces (held in Berlin/Potsdam, September 14-17, 1997), HCM-FAIRSHAPE Network (EU), H. Nowacki, P. Kaklis (Eds.); Teubner Publ.
- Papanikolaou A. 2019. A holistic approach to ship design, Vol. 1: optimisation of ship design and operation for life cycle. Berlin: Springer.
- Papanikolaou A. 2021. A holistic approach to ship design, Vol. 2: Application case studies. Berlin: Springer.
- Peri D. 2013. Automatic tuning of metamodels for optimization. 12th Conference Computer and IT Applications in Maritime Industries (COMPIT); Cortona. p. 51–62. http://data.hiper-conf.info/compit2013_cortona.pdf.
- Peri D, Campana E. 2005. Global optimization for safety and comfort. 4th Conference Computer and IT Applications in Maritime Industries (COMPIT); Hamburg. p. 477–486. http://data.hiper-conf.info/compit2005_hamburg.pdf.
- Peri D, Rossetti M, Campana EF. 2001. Design optimization of ship hulls via CFD techniques. J Ship Res. 45/2:140–149. doi:10.5957/jsr.2001.45.2.140
- Peric M, Bertram V. 2011. Trends in industry applications of CFD for maritime flows. 10th conf. Computer and IT Applications in Maritime Industries (COMPIT); Berlin. p. 8–18. http://data.hiper-conf.info/compit2011_berlin.pdf.
- Poloni C, Pediroda V. 2000. Genetic algorithms – Basics, multi-criteria optimization and constraints handling. in Birk and Harries (2003), p. 87–114.
- Shigunov V, Bertram V. 2014. Prediction of added power in seaway by numerical simulation. 9th International Conference on High-Performance Marine Vessels (HIPER); Athens. p. 102–113. http://data.hiper-conf.info/Hiper2014_Athens.pdf.
- Söding H. 1963. Das Straken von Schiffslinien mit Digitalrechnern. Hansa. 104/1:1387–1394.
- Stück A. 2012. Adjoint Navier–Stokes methods for hydrodynamic shape optimisation [PhD thesis]. TU Hamburg. https://tubdok.tub.tuhh.de/bitstream/11420/1063/1/adjointNavierStokesMethodsForHydrodynamicShapeOptimisation_arthurStueck.pdf.
- Van Der Ploeg A, Schuiling B. 2018. Improving an already optimized ship by making its stern asymmetric. 17th Conference Computer and IT Applications in Maritime Industries (COMPIT); Pavone. p.84–97. http://data.hiper-conf.info/compit2017_pavone.pdf.
- Vargas A, Shin H. 2017. Modeling of ship resistance as a function of biofouling type, coverage, and spatial variation. 2nd hull Performance and Insight Conf. (HullPIC); Ulrichshusen. p. 264–281. http://data.hullpic.info/HullPIC2017_ulrichshusen.pdf.
- Veelo B. 2004. Variations of shape in industrial geometric models [PhD thesis]. NTNU, Trondheim. https://ntnuopen.ntnu.no/ntnu-xmlui/bitstream/handle/11250/241067/124819_FULLTEXT01.pdf.
- Weinblum G. 1957. Schiffe geringsten Widerstandes, Jahrbuch der Schiffbautechnischen Gesellschaft 51, Springer, https://d-nb.info/1071565443/34.