Bioinspired Heuristics for Optimization
Details
This book presents recent research on bioinspired heuristics for optimization. Learning- based and black-box optimization exhibit some properties of intrinsic parallelization, and can be used for various optimizations problems. Featuring the most relevant work presented at the 6th International Conference on Metaheuristics and Nature Inspired Computing, held at Marrakech (Morocco) from 27th to 31st October 2016, the book presents solutions, methods, algorithms, case studies, and software. It is a valuable resource for research academics and industrial practitioners.
Presents recent research on bioinspired heuristics Provides a comprehensive background to bioinspired heuristics for optimization Highlights state-of-the-art developments in bioinspired heuristics research
Inhalt
Possibilistic Framework for Multi-objective Optimization under Uncertainty.- Solving the Uncapacitated Single Allocation p-Hub Median Problem on GPU. Phase Equilibrium Description of a Supercritical Extraction System using Metaheuristic Optimization Algorithms.- Intrusion Detection System based on a behavioral approach.- A new hybrid method to solve the multi-objective optimization problem for a composite hat-stiffened panel.- Storage yard management: modelling and solving.- Multi-capacitated location problem : A new resolution method combining exact and heuristic approaches based on set partitioning.- Application of genetic algorithm for solving bilevel linear programming problems.- Adapted Bin-Packing algorithm for the yard optimization problem.- Hidden Markov Model classier for the adaptive ACS-TSP pheromone parameters.
Weitere Informationen
- Allgemeine Informationen
- GTIN 09783319951034
- Auflage 1st edition 2019
- Editor Amir Nakib, El-Ghazali Talbi
- Sprache Englisch
- Genre Allgemeines & Lexika
- Lesemotiv Verstehen
- Größe H241mm x B160mm x T24mm
- Jahr 2018
- EAN 9783319951034
- Format Fester Einband
- ISBN 3319951033
- Veröffentlichung 29.08.2018
- Titel Bioinspired Heuristics for Optimization
- Untertitel Studies in Computational Intelligence 774
- Gewicht 653g
- Herausgeber Springer International Publishing
- Anzahl Seiten 324