The course work includes study of preparatory reading material before course-start. An integral part of the course is computer exercises and preparing a poster for presentation on the last day of the course; exercise work is planned for the weekend. All participants are also required to give a short presentation on the topic of their Ph.D. research work
Kursets varighed:
[Kurset følger ikke DTUs normale skemastruktur]
Evalueringsform:
Hjælpemidler:
Bedømmelsesform:
Deltagerbegrænsning:
Maksimum: 35
Overordnede kursusmål:
The course will give participants an overview of modern computational methods for topology design of structures and multi-physics systems
Kursusindhold:
The course will concentrate on theory and practice of topology design. Topics include: - Design parametrization (interpolation schemes, composites, etc.) - Sensitivity analysis (direct and adjoint methods) - Algorithms (OC-methods, convex approximation schemes and other methods) - Computational issues (checkerboards, filters) - Applications in structural and multi-physics problems (industrial examples, MEMS-MicroElectroMechanicalSystems, wave-propagation problems)
Litteratur::
Course textbook: Martin P. Bendsøe and Ole Sigmund (2003 and 2004), "Topology Optimization: Theory, Methods and Applications." Springer Verlag, Berlin-Heidelberg
Bemærkninger:
Master students can only sign up after prior acceptance by one of the course responsible teachers.
