00804nam0-22002891i-450-99000166711040332120050513102220.0000166711FED01000166711(Aleph)000166711FED0100016671120030910d1832----km-y0itay50------baitaRaccolta di monumenti antichiFrancesco Inghiramis.l.s.e.1832166 tav.22 cmEsempl. mancante del front.Architettura720Inghirami,Francesco<1772-1846>78934ITUNINARICAUNIMARCBK99000166711040332160 DONO IERNA 17036068FAGBCFAGBCRaccolta di monumenti antichi370361UNINA00938nam0 2200277 450 00002051220071106092734.02-930232-28-520071001d1999----km-y0itaa50------bafreBE<<Le>> temps qui batPhilippe Mathy[Bruxelles]<<Le>> Taillis Préc199984 p.21 cm.843.914(21. ed.)Narrativa francese. 1945-1999Mathy,Philippe443509ITUniversità della Basilicata - B.I.A.RICAunimarc000020512Temps qui bat85824UNIBASLETTERESTD0500120071001BAS011213TTM3020071106BAS010927ATR4020100316BAS011429BAS01BAS01BOOKBASA1Polo Storico-UmanisticoFBGFondo BelgaFBel/106097106097L1060972007100804Prestabile Didattica05830nam 2200817Ia 450 991081014750332120200520144314.097811187119031118711904978111871183511187118319781299475922129947592297811187118041118711807(CKB)2550000001020375(EBL)1168530(OCoLC)850221046(SSID)ssj0000904915(PQKBManifestationID)11476870(PQKBTitleCode)TC0000904915(PQKBWorkID)10925019(PQKB)11437304(MiAaPQ)EBC1168530(Au-PeEL)EBL1168530(CaPaEBR)ebr10687764(CaONFJC)MIL478842(PPN)185426786(OCoLC)820781978(FINmELB)ELB179419(Perlego)1000997(EXLCZ)99255000000102037520130418d2013 uy 0engur|n|---|||||txtrdacontentcrdamediacrrdacarrierUncertainty and optimization in structural mechanics /Abdelkhalak El Hami and Radi Bouchaib1st ed.London Wiley20131 online resource (145 pages)FOCUS SeriesDescription based upon print version of record.9781848215177 1848215177 Title Page; Contents; Preface; CHAPTER 1. UNCERTAINTY; 1.1. Introduction; 1.2. The optimization problem; 1.3. Sources of uncertainty; 1.4. Dealing with uncertainty; 1.4.1. Reliability optimization; 1.4.2. Robust optimization; 1.4.3. Multi-object optimization; 1.4.4. Stochastic optimization; 1.4.5. Worst-case scenario based optimization; 1.4.6. Non-probabilistic optimization; 1.4.7. Interval modeling; 1.4.8. Fuzzy sets; 1.5. Analyzing sensitivity; 1.5.1. Local sensitivity analysis; 1.5.2. Global sensitivity analysis; CHAPTER 2. RELIABILITY IN MECHANICAL SYSTEMS; 2.1. Introduction2.2. A structure reliability problem; 2.3. Modeling a structure reliability problem; 2.3.1. A deterministic mechanical model; 2.3.2. Risks and probabilistic modeling; 2.3.3. Types of failure in a structure; 2.3.4. Probability of failure in a structure; 2.4. Calculating the probability of failure in a structure; 2.4.1. Calculating the probability of failure using the Monte Carlo method; 2.4.2. Calculating the probability of failure using a reliability index; 2.5. Reliability indices; 2.5.1. The Rjanitzyne-Cornell index; 2.5.2. The Hasofer-Lind index; 2.5.3. The FORM method2.5.4. The SORM method; 2.6. Overview of the resistance-sollicitation problem; 2.6.1. Probability of failure; 2.6.2. Reliability indices; 2.7. System reliability in mechanics; 2.7.1. Combinations of types of failure; 2.7.2. Assessment of the failure probability of a system; 2.8. The finite element method and structural reliability; 2.8.1. Context and objectives of the problem; 2.8.2. Discretization and modeling random fields; 2.8.3. Mechano-reliability coupling; 2.8.4. Surface response coupling; CHAPTER 3. OPTIMAL STRUCTURAL DESIGN; 3.1. Introduction3.2. Historical development of structural optimization; 3.3. Classifying structural optimization problems; 3.3.1. Dimensional optimization; 3.3.2. Topological optimization; 3.3.3. Shape optimization; CHAPTER 4. MULTI-OBJECT OPTIMIZATION WITH UNCERTAINTY; 4.1. Introduction; 4.1.1. Choice of an optimization method; 4.1.2. Classifying optimization methods; 4.2. User classification; 4.3. Design classification; 4.4. Multi-objective genetic algorithms; 4.5. Robust multi-objective optimization; 4.5.1. Robustness criteria in multi-objective optimization; 4.6. Normal boundary intersection method4.6.1. Description of the NBI method; 4.7. Multi-objective structural optimization problem; CHAPTER 5. ROBUST OPTIMIZATION; 5.1. Introduction; 5.2. Modeling uncertainty; 5.2.1. Parametric methods; 5.2.2. Non-parametric methods; 5.3. Accounting for robustness in optimum research; 5.4. Robustness criteria; 5.4.1. Defining uncertainty in design parameters; 5.4.2. Robustness criteria in multi-objective optimization; 5.5. Resolution method; 5.6. Examples of mono-objective optimization; CHAPTER 6. RELIABILITY OPTIMIZATION; 6.1. Introduction; 6.2. Overview of reliability optimization; 6.3. Reliability optimization methodsOptimization is generally a reduction operation of a definite quantity. This process naturally takes place in our environment and through our activities. For example, many natural systems evolve, in order to minimize their potential energy. Modeling these phenomena then largely relies on our capacity to artificially reproduce these processes. In parallel, optimization problems have quickly emerged from human activities, notably from economic concerns. This book includes the most recent ideas coming from research and industry in the field of optimization, reliability and the recognition of aColeccion "FOCUS".Structural analysis (Engineering)Structural designStructural optimizationUncertainty (Information theory)Structural analysis (Engineering)Structural design.Structural optimization.Uncertainty (Information theory)624.17El Hami Abdelkhalak930844Bouchaib Radi1720049MiAaPQMiAaPQMiAaPQBOOK9910810147503321Uncertainty and optimization in structural mechanics4118370UNINA