Constraint Programming and Decision Making
In many application areas, it is necessary to make effective decisions under constraints. Several area-specific techniques are known for such decision problems; however, because these techniques are area-specific, it is not easy to apply each technique to other applications areas. Cross-fertilizatio...
Guardado en:
| Otros Autores: | , |
|---|---|
| Formato: | Libro electrónico |
| Lenguaje: | Inglés |
| Publicado: |
Cham :
Springer International Publishing : Imprint: Springer,
2014.
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| Colección: | Studies in Computational Intelligence,
539 |
| Materias: | |
| Acceso en línea: | http://dx.doi.org/10.1007/978-3-319-04280-0 |
| Aporte de: | Registro referencial: Solicitar el recurso aquí |
| LEADER | 04821Cam#a22004095i#4500 | ||
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| 245 | 1 | 0 | |a Constraint Programming and Decision Making |h [libro electrónico] / |c edited by Martine Ceberio, Vladik Kreinovich. |
| 260 | 1 | |a Cham : |b Springer International Publishing : |b Imprint: Springer, |c 2014. | |
| 300 | |a xii, 209 p. : |b il. | ||
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| 490 | 1 | |a Studies in Computational Intelligence, |x 1860-949X ; |v 539 | |
| 505 | 0 | |a Algorithmics of Checking Whether a Mapping Is Injective, Surjective, and/or Bijective -- Simplicity Is Worse Than Theft: A Constraint-Based Explanation of a Seemingly Counter-Intuitive Russian Saying -- Continuous If-Then Statements Are Computable -- Linear programming with Interval Type-2 fuzzy constraints -- Epistemic Considerations on Expert Disagreement, Normative Justification, and Inconsistency Regarding Multi-Criteria Decision Making .-Interval Linear Programming Techniques in Constraint Programming and Global Optimization.-Selecting the Best Location for a Meteorological Tower: A Case Study of Multi-Objective Constraint Optimization.-Gibbs Sampling as a Natural Statistical Analog of Constraints Techniques: Prediction in Science under General Probabilistic Uncertainty .-Why Tensors.-Adding Constraints â_" A (Seemingly Counterintuitive but) Useful Heuristic in Solving Difficult Problems.-Under Physics-Motivated Constraints, Generally-Non-Algorithmic Computational Problems Become Algorithmically Solvable -- Constraint-Related Reinterpretation of Fundamental Physical Equations Can Serve as a Built-In Regularization -- Optimization of the Choquet Integral using Genetic Algorithm -- Optimization of the Choquet Integral using Genetic Algorithm -- Scalable, Portable, Verifiable Kronecker Products on Multi-Scale Computers -- Reliable and Robust Synthesis of QFT controller using ICSP -- Towards an Efficient Bisection of Ellipsoids -- .-An Auto-validating Rejection Sampler for Differentiable Arithmetical Expressions: Posterior Sampling of Phylogenetic Quartets -- Graph Subdivision Methods in Interval Global Optimization -- An Extended BDI-Based Model for Human Decision-Making and Social Behavior: Various Applications -- Why Curvature in L-Curve: Combining Soft Constraints -- Surrogate Models for Mixed Discrete-Continuous Variables Why Ellipsoid Constraints, Ellipsoid Clusters, and Riemannian Space-Time: Dvoretzkyâ_Ts Theorem Revisited. | |
| 520 | |a In many application areas, it is necessary to make effective decisions under constraints. Several area-specific techniques are known for such decision problems; however, because these techniques are area-specific, it is not easy to apply each technique to other applications areas. Cross-fertilization between different application areas is one of the main objectives of the annual International Workshops on Constraint Programming and Decision Making. Those workshops, held in the US (El Paso, Texas), in Europe (Lyon, France), and in Asia (Novosibirsk, Russia), from 2008 to 2012, have attracted researchers and practitioners from all over the world. This volume presents extended versions of selected papers from those workshops. These papers deal with all stages of decision making under constraints: (1) formulating the problem of multi-criteria decision making in precise terms, (2) determining when the corresponding decision problem is algorithmically solvable; (3) finding the corresponding algorithms, and making these algorithms as efficient as possible; and (4) taking into account interval, probabilistic, and fuzzy uncertainty inherent in the corresponding decision making problems. The resulting application areas include environmental studies (selecting the best location for a meteorological tower), biology (selecting the most probable evolution history of a species), and engineering (designing the best control for a magnetic levitation train). | ||
| 650 | 0 | |a Engineering. |9 259622 | |
| 650 | 0 | |a Computational intelligence. |9 259845 | |
| 650 | 2 | 4 | |a Artificial Intelligence (incl. Robotics). |9 259846 |
| 700 | 1 | |a Ceberio, Martine, |e ed. |9 260963 | |
| 700 | 1 | |a Kreinovich, Vladik, |e ed. |9 260835 | |
| 776 | 0 | 8 | |i Printed edition: |z 9783319042794 |
| 856 | 4 | 0 | |u http://dx.doi.org/10.1007/978-3-319-04280-0 |
| 912 | |a ZDB-2-ENG | ||
| 929 | |a COM | ||
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| 950 | |a Engineering (Springer-11647) | ||
| 999 | |a SKV |c 27820 |d 27820 | ||