Engineering systems entail uncertainties of many sorts: loads, material properties, environmental conditions, etc. Info-gap theory has been applied in many analyses of design, safety and reliability.
- Questions or comments on info-gap theory? Contact me at yakov@technion.ac.il
- Yakov Ben-Haim, 2006, Info-gap Decision Theory: Decisions Under Severe Uncertainty, 2nd edition, Academic Press, London.
- Chapter 3: Robustness and Opportuneness.
- Section 3.2.1: Engineering design: Cantilever.
- Section 3.2.2: Structural reliability.
- Section 3.2.3: Structural reliability with uncertain probability.
- Chapter 5: Antagonistic and Sympathetic Immunities.
- Section 5.3: Vibrating Mechanical Contact.
- Chapter 7: Value of Information.
- Section 7.3 Uncertain loads on a cantilever.
- Section 7.4 Cantilever: Simple and complex info-gap models.
- Chapter 8: Learning.
- Section 8.2: Info-gap supervision of a classifier.
- Section 8.3: Acoustic noise.
- Chapter 3: Robustness and Opportuneness.
- Yakov Ben-Haim, 2005, Info-gap Decision Theory For Engineering Design. Or: Why `Good’ is Preferable to `Best’, appearing as chapter 11 in Engineering Design Reliability Handbook, Edited by Efstratios Nikolaidis, Dan M.Ghiocel and Surendra Singhal, CRC Press, Boca Raton. Pre-print.
- Analytical and Numerical Methods
- Aerospace Engineering
- Climate and the Environment
- Energy and Power Engineering
- Mechanical and Structural Engineering
- Reliability in Design and Analysis
- Transportation on Land
- Water Resource Engineering