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040   $aDip.to Filosofia$bita
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100 1 $aFioravanti, Giorgio$074863
245 13$aIl manuale del grafico :$bguida alla progettazione grafica e all'impaginazione del prodotto editoriale /$cGiorgio Fioravanti
260   $aBologna :$bZanichelli,$cc1987
300   $a208 p. :$bill. ;$c28 cm
650  4$aTipografia
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996   $aManuale del grafico$973325
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240 10$aVie financière dans le monde romain.$lEnglish$924916
245 10$aBanking and business in the Roman world /$cJean Andreau ; translated by Janet Lloyd
260   $aCambridge, UK ;$aNew York :$bCambridge University Press,$c1999
300   $axvii, 176 p. :$b1 map ;$c24 cm
440  0$aKey themes in ancient history
504   $aInclude riferimenti bibliografici (p. 159-171) e indice
650  4$aFinanza$zRoma$xStoria
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135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 00$aUncertainty in industrial practice$b[electronic resource] $ea guide to quantitative uncertainty management /$fedited by Etienne de Rocquigny, Nicolas Devictor, Stefano Tarantola
210   $aChichester, England ;$aHoboken, NJ $cJ. Wiley$dc2008
215   $a1 online resource (365 p.)
300   $aDescription based upon print version of record.
311   $a0-470-99447-9 
320   $aIncludes bibliographical references and index.
327   $aUncertainty in Industrial Practice; Contents; Preface; Contributors and Acknowledgements; Introduction; Notation - Acronyms and abbreviations; Part I Common Methodological Framework; 1 Introducing the common methodological framework; 1.1 Quantitative uncertainty assessment in industrial practice: a wide variety of contexts; 1.2 Key generic features, notation and concepts; 1.2.1 Pre-existing model, variables of interest and uncertain/fixed inputs; 1.2.2 Main goals of the uncertainty assessment; 1.2.3 Measures of uncertainty and quantities of interest; 1.2.4 Feedback process
327   $a1.2.5 Uncertainty modelling1.2.6 Propagation and sensitivity analysis processes; 1.3 The common conceptual framework; 1.4 Using probabilistic frameworks in uncertainty quantification - preliminary comments; 1.4.1 Standard probabilistic setting and interpretations; 1.4.2 More elaborate level-2 settings and interpretations; 1.5 Concluding remarks; References; 2 Positioning of the case studies; 2.1 Main study characteristics to be specified in line with the common framework; 2.2 Introducing the panel of case studies; 2.3 Case study abstracts; Part II Case Studies
327   $a3 CO2 emissions: estimating uncertainties in practice for power plants3.1 Introduction and study context; 3.2 The study model and methodology; 3.2.1 Three metrological options: common features in the pre-existing models; 3.2.2 Differentiating elements of the fuel consumption models; 3.3 Underlying framework of the uncertainty study; 3.3.1 Specification of the uncertainty study; 3.3.2 Description and modelling of the sources of uncertainty; 3.3.3 Uncertainty propagation and sensitivity analysis; 3.3.4 Feedback process; 3.4 Practical implementation and results; 3.5 Conclusions; References
327   $a4 Hydrocarbon exploration: decision-support through uncertainty treatment4.1 Introduction and study context; 4.2 The study model and methodology; 4.2.1 Basin and petroleum system modelling; 4.3 Underlying framework of the uncertainty study; 4.3.1 Specification of the uncertainty study; 4.3.2 Description and modelling of the sources of uncertainty; 4.3.3 Uncertainty propagation and sensitivity analysis; 4.3.4 Feedback process; 4.4 Practical implementation and results; 4.4.1 Uncertainty analysis; 4.4.2 Sensitivity analysis; 4.5 Conclusions; References
327   $a5 Determination of the risk due to personal electronic devices (PEDs) carried out on radio-navigation systems aboard aircraft5.1 Introduction and study context; 5.2 The study model and methodology; 5.2.1 Electromagnetic compatibility modelling and analysis; 5.2.2 Setting the EMC problem; 5.2.3 A model-based approach; 5.2.4 Regulatory and industrial stakes; 5.3 Underlying framework of the uncertainty study; 5.3.1 Specification of the uncertainty study; 5.3.2 Description and modelling of the sources of uncertainty; 5.3.3 Uncertainty propagation and sensitivity analysis; 5.3.4 Feedback process
327   $a5.4 Practical implementation and results
330   $aManaging uncertainties in industrial systems is a daily challenge to ensure improved design, robust operation, accountable performance and responsive risk control. Authored by a leading European network of experts representing a cross section of industries, Uncertainty in Industrial Practice aims to provide a reference for the dissemination of uncertainty treatment in any type of industry. It is concerned with the quantification of uncertainties in the presence of data, model(s) and knowledge about the system, and offers a technical contribution to decision-making processes whilst acknowledgin
606   $aIndustrial management$xMathematical models
606   $aUncertainty$xMathematical models
606   $aRisk management
615  0$aIndustrial management$xMathematical models.
615  0$aUncertainty$xMathematical models.
615  0$aRisk management.
676   $a658
676   $a658.001
701   $aRocquigny$b Etienne de$0522144
701   $aDevictor$b Nicolas$01641991
701   $aTarantola$b Stefano$01641992
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
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996   $aUncertainty in industrial practice$93986465
997   $aUNINA