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200 00$aRémy Colombat. Les Avatars d?Orphée$ePoésie allemande de la modernité$fJean-Marie Valentin, Frédérique Colombat
210   $aArras$cArtois Presses Université$d2020
215   $a1 online resource (516 p.) 
311   $a2-84832-273-X 
330   $aLes travaux de Rémy Colombat, réunis dans le présent volume, reflètent l?essentiel de son activité. Ils ont paru dans des revues ou des volumes collectifs, en France, comme en Allemagne. Ils font apercevoir la permanence d?interrogations qui touchent aux types de textes, à la méthode et à l?organisation de l??uvre poétique moderne.  Ces questions étaient déjà présentes dans sa thèse d?État, Rimbaud-Heym-Trakl. Essais de poétique comparée (Berne, 1986). On trouvait là en effet quelques-uns des thèmes repris par la suite, d?article en article.  Ce fut d?abord la question de la modernité ? poétique s?entend, et placée sous le signe d?Orphée. À Rimbaud viennent s?adjoindre du côté français Mallarmé et Valéry. Pour le domaine allemand, l?intérêt s?est porté sur Heine, Benn, Rilke, Trakl, Celan.  « Moi lyrique » et « moi empirique », ambitions et limites du langage, méfiance à l?endroit d?un hermétisme de l?exégèse qui viendrait renchérir sur l?obscurité de l?écriture, triomphe d?une sphère poétique spécifique, rebelle aux asservissements et aux exploitations qui lui font violence : tels sont notamment les points sur lesquels s?articule un dialogue obstinément entretenu avec les textes.
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181   $ctxt
182   $cc
183   $acr
200 10$aMetaheuristics $efrom design to implementation /$fEl-ghazali Talbi
210   $aHoboken, NJ $cJohn Wiley & Sons$d2009
215   $a1 online resource (625 p.)
225 1 $aWiley Series on Parallel and Distributed Computing ;$vv.74
300   $aDescription based upon print version of record.
311 08$a9780470278581 
311 08$a0470278587 
320   $aIncludes bibliographical references and index.
327   $aMETAHEURISTICS; CONTENTS; Preface; Acknowledgments; Glossary; 1 Common Concepts for Metaheuristics; 1.1 Optimization Models; 1.1.1 Classical Optimization Models; 1.1.2 Complexity Theory; 1.1.2.1 Complexity of Algorithms; 1.1.2.2 Complexity of Problems; 1.2 Other Models for Optimization; 1.2.1 Optimization Under Uncertainty; 1.2.2 Dynamic Optimization; 1.2.2.1 Multiperiodic Optimization; 1.2.3 Robust Optimization; 1.3 Optimization Methods; 1.3.1 Exact Methods; 1.3.2 Approximate Algorithms; 1.3.2.1 Approximation Algorithms; 1.3.3 Metaheuristics; 1.3.4 Greedy Algorithms
327   $a1.3.5 When Using Metaheuristics?1.4 Main Common Concepts for Metaheuristics; 1.4.1 Representation; 1.4.1.1 Linear Representations; 1.4.1.2 Nonlinear Representations; 1.4.1.3 Representation-Solution Mapping; 1.4.1.4 Direct Versus Indirect Encodings; 1.4.2 Objective Function; 1.4.2.1 Self-Sufficient Objective Functions; 1.4.2.2 Guiding Objective Functions; 1.4.2.3 Representation Decoding; 1.4.2.4 Interactive Optimization; 1.4.2.5 Relative and Competitive Objective Functions; 1.4.2.6 Meta-Modeling; 1.5 Constraint Handling; 1.5.1 Reject Strategies; 1.5.2 Penalizing Strategies
327   $a1.5.3 Repairing Strategies1.5.4 Decoding Strategies; 1.5.5 Preserving Strategies; 1.6 Parameter Tuning; 1.6.1 Off-Line Parameter Initialization; 1.6.2 Online Parameter Initialization; 1.7 Performance Analysis of Metaheuristics; 1.7.1 Experimental Design; 1.7.2 Measurement; 1.7.2.1 Quality of Solutions; 1.7.2.2 Computational Effort; 1.7.2.3 Robustness; 1.7.2.4 Statistical Analysis; 1.7.2.5 Ordinal Data Analysis; 1.7.3 Reporting; 1.8 Software Frameworks for Metaheuristics; 1.8.1 Why a Software Framework for Metaheuristics?; 1.8.2 Main Characteristics of Software Frameworks
327   $a1.8.3 ParadisEO Framework1.8.3.1 ParadisEO Architecture; 1.9 Conclusions; 1.10 Exercises; 2 Single-Solution Based Metaheuristics; 2.1 Common Concepts for Single-Solution Based Metaheuristics; 2.1.1 Neighborhood; 2.1.2 Very Large Neighborhoods; 2.1.2.1 Heuristic Search in Large Neighborhoods; 2.1.2.2 Exact Search in Large Neighborhoods; 2.1.2.3 Polynomial-Specific Neighborhoods; 2.1.3 Initial Solution; 2.1.4 Incremental Evaluation of the Neighborhood; 2.2 Fitness Landscape Analysis; 2.2.1 Distances in the Search Space; 2.2.2 Landscape Properties; 2.2.2.1 Distribution Measures
327   $a2.2.2.2 Correlation Measures2.2.3 Breaking Plateaus in a Flat Landscape; 2.3 Local Search; 2.3.1 Selection of the Neighbor; 2.3.2 Escaping from Local Optima; 2.4 Simulated Annealing; 2.4.1 Move Acceptance; 2.4.2 Cooling Schedule; 2.4.2.1 Initial Temperature; 2.4.2.2 Equilibrium State; 2.4.2.3 Cooling; 2.4.2.4 Stopping Condition; 2.4.3 Other Similar Methods; 2.4.3.1 Threshold Accepting; 2.4.3.2 Record-to-Record Travel; 2.4.3.3 Great Deluge Algorithm; 2.4.3.4 Demon Algorithms; 2.5 Tabu Search; 2.5.1 Short-Term Memory; 2.5.2 Medium-Term Memory; 2.5.3 Long-Term Memory; 2.6 Iterated Local Search
327   $a2.6.1 Perturbation Method
330   $aA unified view of metaheuristics This book provides a complete background on metaheuristics and shows readers how to design and implement efficient algorithms to solve complex optimization problems across a diverse range of applications, from networking and bioinformatics to engineering design, routing, and scheduling. It presents the main design questions for all families of metaheuristics and clearly illustrates how to implement the algorithms under a software framework to reuse both the design and code. Throughout the book, the key search components of metaheuristics are considered as a
410  0$aWiley Series on Parallel and Distributed Computing
606   $aMathematical optimization
606   $aHeuristic programming
606   $aProblem solving$xData processing
606   $aComputer algorithms
615  0$aMathematical optimization.
615  0$aHeuristic programming.
615  0$aProblem solving$xData processing.
615  0$aComputer algorithms.
676   $a519.6
700   $aTalbi$b El-Ghazali$f1965-$0786036
712 02$aWiley Online Library (Servicio en línea)
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996   $aMetaheuristics$91750106
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