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Strategies for Mastering Uncertainty

Pfetsch, Marc E. ; Abele, Eberhard ; Altherr, Lena C. ; Bölling, Christian ; Brötz, Nicolas ; Dietrich, Ingo ; Gally, Tristan ; Geßner, Felix ; Groche, Peter ; Hoppe, Florian ; Kirchner, Eckhard ; Kloberdanz, Hermann ; Knoll, Maximilian ; Kolvenbach, Philip ; Kuttich-Meinlschmidt, Anja ; Leise, Philipp ; Lorenz, Ulf ; Matei, Alexander ; Molitor, Dirk A. ; Niessen, Pia ; Pelz, Peter F. ; Rexer, Manuel ; Schmitt, Andreas ; Schmitt, Johann M. ; Schulte, Fiona ; Ulbrich, Stefan ; Weigold, Matthias
Pelz, Peter F. ; Groche, Peter ; Pfetsch, Marc E. ; Schaeffner, Maximilian (eds.) (2021):
Strategies for Mastering Uncertainty.
In: Springer Tracts in Mechanical Engineering (STME), In: Mastering Uncertainty in Mechanical Engineering, 1, pp. 365-456, Cham, Springer International Publishing, ISBN 978-3-030-78353-2,
DOI: 10.1007/978-3-030-78354-9_6,
[Book Section]

Abstract

This chapter describes three general strategies to master uncertainty in technical systems: robustness, flexibility and resilience. It builds on the previous chapters about methods to analyse and identify uncertainty and may rely on the availability of technologies for particular systems, such as active components. Robustness aims for the design of technical systems that are insensitive to anticipated uncertainties. Flexibility increases the ability of a system to work under different situations. Resilience extends this characteristic by requiring a given minimal functional performance, even after disturbances or failure of system components, and it may incorporate recovery. The three strategies are described and discussed in turn. Moreover, they are demonstrated on specific technical systems.

Item Type: Book Section
Erschienen: 2021
Editors: Pelz, Peter F. ; Groche, Peter ; Pfetsch, Marc E. ; Schaeffner, Maximilian
Creators: Pfetsch, Marc E. ; Abele, Eberhard ; Altherr, Lena C. ; Bölling, Christian ; Brötz, Nicolas ; Dietrich, Ingo ; Gally, Tristan ; Geßner, Felix ; Groche, Peter ; Hoppe, Florian ; Kirchner, Eckhard ; Kloberdanz, Hermann ; Knoll, Maximilian ; Kolvenbach, Philip ; Kuttich-Meinlschmidt, Anja ; Leise, Philipp ; Lorenz, Ulf ; Matei, Alexander ; Molitor, Dirk A. ; Niessen, Pia ; Pelz, Peter F. ; Rexer, Manuel ; Schmitt, Andreas ; Schmitt, Johann M. ; Schulte, Fiona ; Ulbrich, Stefan ; Weigold, Matthias
Title: Strategies for Mastering Uncertainty
Language: English
Abstract:

This chapter describes three general strategies to master uncertainty in technical systems: robustness, flexibility and resilience. It builds on the previous chapters about methods to analyse and identify uncertainty and may rely on the availability of technologies for particular systems, such as active components. Robustness aims for the design of technical systems that are insensitive to anticipated uncertainties. Flexibility increases the ability of a system to work under different situations. Resilience extends this characteristic by requiring a given minimal functional performance, even after disturbances or failure of system components, and it may incorporate recovery. The three strategies are described and discussed in turn. Moreover, they are demonstrated on specific technical systems.

Title of Book: Mastering Uncertainty in Mechanical Engineering
Series Name: Springer Tracts in Mechanical Engineering (STME)
Place of Publication: Cham
Publisher: Springer International Publishing
Edition: 1
ISBN: 978-3-030-78353-2
Divisions: 16 Department of Mechanical Engineering
16 Department of Mechanical Engineering > Institut für Produktionstechnik und Umformmaschinen (PtU)
16 Department of Mechanical Engineering > Institute of Production Technology and Machine Tools (PTW)
Date Deposited: 10 Nov 2021 08:00
DOI: 10.1007/978-3-030-78354-9_6
Official URL: https://link.springer.com/chapter/10.1007%2F978-3-030-78354-...
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