FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1595797227> ?p ?o ?g. }

• W1595797227 abstract "Preface. About the Authors. Foreword. Prologue. Part I: Fundamentals. 1. Sampling Plans. 1.1 The 'Curse of Dimensionality' and How to Avoid It. 1.2 Physical versus Computational Experiments. 1.3 Designing Preliminary Experiments (Screening). 1.3.1 Estimating the Distribution of Elementary Effects. 1.4 Designing a Sampling Plan. 1.4.1 Stratification. 1.4.2 Latin Squares and Random Latin Hypercubes. 1.4.3 Space-filling Latin Hypercubes. 1.4.4 Space-filling Subsets. 1.5 A Note on Harmonic Responses. 1.6 Some Pointers for Further Reading. References. 2. Constructing a Surrogate. 2.1 The Modelling Process. 2.1.1 Stage One: Preparing the Data and Choosing a Modelling Approach. 2.1.2 Stage Two: Parameter Estimation and Training. 2.1.3 Stage Three: Model Testing. 2.2 Polynomial Models. 2.2.1 Example One: Aerofoil Drag. 2.2.2 Example Two: a Multimodal Testcase. 2.2.3 What About the k -variable Case? 2.3 Radial Basis Function Models. 2.3.1 Fitting Noise-Free Data. 2.3.2 Radial Basis Function Models of Noisy Data. 2.4 Kriging. 2.4.1 Building the Kriging Model. 2.4.2 Kriging Prediction. 2.5 Support Vector Regression. 2.5.1 The Support Vector Predictor. 2.5.2 The Kernel Trick. 2.5.3 Finding the Support Vectors. 2.5.4 Finding . 2.5.5 Choosing C and epsilon. 2.5.6 Computing epsilon : v -SVR 71. 2.6 The Big(ger) Picture. References. 3. Exploring and Exploiting a Surrogate. 3.1 Searching the Surrogate. 3.2 Infill Criteria. 3.2.1 Prediction Based Exploitation. 3.2.2 Error Based Exploration. 3.2.3 Balanced Exploitation and Exploration. 3.2.4 Conditional Likelihood Approaches. 3.2.5 Other Methods. 3.3 Managing a Surrogate Based Optimization Process. 3.3.1 Which Surrogate for What Use? 3.3.2 How Many Sample Plan and Infill Points? 3.3.3 Convergence Criteria. 3.3.4 Search of the Vibration Isolator Geometry Feasibility Using Kriging Goal Seeking. References. Part II: Advanced Concepts. 4. Visualization. 4.1 Matrices of Contour Plots. 4.2 Nested Dimensions. Reference. 5. Constraints. 5.1 Satisfaction of Constraints by Construction. 5.2 Penalty Functions. 5.3 Example Constrained Problem. 5.3.1 Using a Kriging Model of the Constraint Function. 5.3.2 Using a Kriging Model of the Objective Function. 5.4 Expected Improvement Based Approaches. 5.4.1 Expected Improvement With Simple Penalty Function. 5.4.2 Constrained Expected Improvement. 5.5 Missing Data. 5.5.1 Imputing Data for Infeasible Designs. 5.6 Design of a Helical Compression Spring Using Constrained Expected Improvement. 5.7 Summary. References. 6. Infill Criteria With Noisy Data. 6.1 Regressing Kriging. 6.2 Searching the Regression Model. 6.2.1 Re-Interpolation. 6.2.2 Re-Interpolation With Conditional Likelihood Approaches. 6.3 A Note on Matrix Ill-Conditioning. 6.4 Summary. References. 7. Exploiting Gradient Information. 7.1 Obtaining Gradients. 7.1.1 Finite Differencing. 7.1.2 Complex Step Approximation. 7.1.3 Adjoint Methods and Algorithmic Differentiation. 7.2 Gradient-enhanced Modelling. 7.3 Hessian-enhanced Modelling. 7.4 Summary. References. 8. Multi-fidelity Analysis. 8.1 Co-Kriging. 8.2 One-variable Demonstration. 8.3 Choosing X c and X e . 8.4 Summary. References. 9. Multiple Design Objectives. 9.1 Pareto Optimization. 9.2 Multi-objective Expected Improvement. 9.3 Design of the Nowacki Cantilever Beam Using Multi-objective, Constrained Expected Improvement. 9.4 Design of a Helical Compression Spring Using Multi-objective, Constrained Expected Improvement. 9.5 Summary. References. Appendix: Example Problems. A.1 One-Variable Test Function. A.2 Branin Test Function. A.3 Aerofoil Design. A.4 The Nowacki Beam. A.5 Multi-objective, Constrained Optimal Design of a Helical Compression Spring. A.6 Novel Passive Vibration Isolator Feasibility. References. Index." @default.
• W1595797227 created "2016-06-24" @default.
• W1595797227 creator A5010278744 @default.
• W1595797227 creator A5011334040 @default.
• W1595797227 creator A5043243403 @default.
• W1595797227 date "2008-09-01" @default.
• W1595797227 modified "2023-10-01" @default.
• W1595797227 title "Engineering Design via Surrogate Modelling: A Practical Guide" @default.
• W1595797227 cites W2009657386 @default.
• W1595797227 doi "https://doi.org/10.2514/4.479557" @default.
• W1595797227 hasPublicationYear "2008" @default.
• W1595797227 type Work @default.
• W1595797227 sameAs 1595797227 @default.
• W1595797227 citedByCount "371" @default.
• W1595797227 countsByYear W15957972272012 @default.
• W1595797227 countsByYear W15957972272013 @default.
• W1595797227 countsByYear W15957972272014 @default.
• W1595797227 countsByYear W15957972272015 @default.
• W1595797227 countsByYear W15957972272016 @default.
• W1595797227 countsByYear W15957972272017 @default.
• W1595797227 countsByYear W15957972272018 @default.
• W1595797227 countsByYear W15957972272019 @default.
• W1595797227 countsByYear W15957972272020 @default.
• W1595797227 countsByYear W15957972272021 @default.
• W1595797227 countsByYear W15957972272022 @default.
• W1595797227 countsByYear W15957972272023 @default.
• W1595797227 crossrefType "monograph" @default.
• W1595797227 hasAuthorship W1595797227A5010278744 @default.
• W1595797227 hasAuthorship W1595797227A5011334040 @default.
• W1595797227 hasAuthorship W1595797227A5043243403 @default.
• W1595797227 hasConcept C105795698 @default.
• W1595797227 hasConcept C111030470 @default.
• W1595797227 hasConcept C11413529 @default.
• W1595797227 hasConcept C119857082 @default.
• W1595797227 hasConcept C126255220 @default.
• W1595797227 hasConcept C131675550 @default.
• W1595797227 hasConcept C154945302 @default.
• W1595797227 hasConcept C19499675 @default.
• W1595797227 hasConcept C20820323 @default.
• W1595797227 hasConcept C28826006 @default.
• W1595797227 hasConcept C33923547 @default.
• W1595797227 hasConcept C41008148 @default.
• W1595797227 hasConcept C81692654 @default.
• W1595797227 hasConceptScore W1595797227C105795698 @default.
• W1595797227 hasConceptScore W1595797227C111030470 @default.
• W1595797227 hasConceptScore W1595797227C11413529 @default.
• W1595797227 hasConceptScore W1595797227C119857082 @default.
• W1595797227 hasConceptScore W1595797227C126255220 @default.
• W1595797227 hasConceptScore W1595797227C131675550 @default.
• W1595797227 hasConceptScore W1595797227C154945302 @default.
• W1595797227 hasConceptScore W1595797227C19499675 @default.
• W1595797227 hasConceptScore W1595797227C20820323 @default.
• W1595797227 hasConceptScore W1595797227C28826006 @default.
• W1595797227 hasConceptScore W1595797227C33923547 @default.
• W1595797227 hasConceptScore W1595797227C41008148 @default.
• W1595797227 hasConceptScore W1595797227C81692654 @default.
• W1595797227 hasLocation W15957972271 @default.
• W1595797227 hasOpenAccess W1595797227 @default.
• W1595797227 hasPrimaryLocation W15957972271 @default.
• W1595797227 hasRelatedWork W1510052597 @default.
• W1595797227 hasRelatedWork W1746819321 @default.
• W1595797227 hasRelatedWork W1977046327 @default.
• W1595797227 hasRelatedWork W1982886636 @default.
• W1595797227 hasRelatedWork W1984753492 @default.
• W1595797227 hasRelatedWork W2001842014 @default.
• W1595797227 hasRelatedWork W2018044188 @default.
• W1595797227 hasRelatedWork W2024697317 @default.
• W1595797227 hasRelatedWork W2038669746 @default.
• W1595797227 hasRelatedWork W2044771513 @default.
• W1595797227 hasRelatedWork W2048711666 @default.
• W1595797227 hasRelatedWork W2056145269 @default.
• W1595797227 hasRelatedWork W2093229042 @default.
• W1595797227 hasRelatedWork W2106944478 @default.
• W1595797227 hasRelatedWork W2126105956 @default.
• W1595797227 hasRelatedWork W2145475762 @default.
• W1595797227 hasRelatedWork W2151238122 @default.
• W1595797227 hasRelatedWork W2478899349 @default.
• W1595797227 hasRelatedWork W2890351024 @default.
• W1595797227 hasRelatedWork W3122455945 @default.
• W1595797227 isParatext "false" @default.
• W1595797227 isRetracted "false" @default.
• W1595797227 magId "1595797227" @default.
• W1595797227 workType "book" @default.