Description |
Nowadays, numerical optimization is a fundamental component of many applications, e.g. in engineering, finances, biomedical applications, machine learning and many more. Therefore, understanding the underlying principles and available algorithms of numerical optimization can be considered an essential skill for a computer scientist. This course offers an applied introduction, covering a broad range of practically important topics, as for instance: Mathematical modeling of real-world problems, theory of convexity, Lagrange dualism, algorithms for unconstrained and constrained optimization with inequalities (e.g. gradient descent, Newton’s method, trust-region methods, active set approaches, interior point methods, …). A major goal of the course is to train students in appropriately modelling optimization problems, and identifying suitable optimization algorithms, based on the understanding of their specific strengths and weaknesses.
Literature
- S. Boyd, L. Vandenberghe, Convex Optimization, Cambridge University Press, 2004
- J. Nocedal, S.J. Wright, Numerical Optimization, Springer, 2006
*** Form of Teaching ***
The course "Applied Optimization" will be offered entirely online this semester. The lectures will be offered via Zoom and uploaded to ILIAS afterwards. In addition there will be an online Q&A session to interactively discuss the content.
Please register to the course on ILIAS in order to get access to all important information and course material. |