Inverse Robustness of Linear Optimization Problems with Applications in Radiotherapy Planning
Jan Schröder
Hrsg.: Fraunhofer ITWM
2025, 112 S., num., mostly col. illus. and tab, Softcover
Sprache: Englisch
Kaiserslautern, TU, Diss., 2025
Fraunhofer Verlag
ISBN 978-3-8396-2136-3

Inhalt
Both multicriteria optimization and robust optimization play a big role in industrial applications. Their natural unification into a multicriteria worst-case model generally leads to overly conservative solutions though. Hence, other concepts have been developed recently. One of these methods is inverse robustness. Here, the size of the uncertainty set itself is viewed as an objective. The mathematical formulation of this problem turns out to be computationally difficult to handle in the general case.

By considering only linear multicriteria problems, the structure is considerably simplified from the start. After the introduction of interval uncertainty, a classical worst-case model is obtained which can be significantly simplified via interval matrices. This model is turned into an inverse robustness problem by linearly scaling the uncertainty set around a nominal scenario. The result is a quadratically constrained quadratic problem (QCQP) which gets relaxed into a semi-definite problem. A reconstruction method is given with which optimal solutions of the QCQP can be restored. This allows to efficiently compute solutions of large-scale practical problems like the radiotherapy planning problem.

Verfügbare Formate

Softcover
EUR 34.00 (* inkl. MwSt.)
erscheint ca. Oktober 2025