Open AccessJournal Article
Simulated Binary Crossover for Continuous Search Space.
TLDR
A real-coded crossover operator is developed whose search power is similar to that of the single-point crossover used in binary-coded GAs, and SBX is found to be particularly useful in problems having mult ip le optimal solutions with a narrow global basin where the lower and upper bo unds of the global optimum are not known a priori.Abstract:
Abst ract . T he success of binary-coded gene t ic algorithms (GA s) in problems having discrete sear ch space largely depends on the coding used to represent the prob lem var iables and on the crossover ope ra tor that propagates buildin g blocks from parent strings to children st rings . In solving optimization problems having continuous search space, binary-coded GAs discr et ize the search space by using a coding of the problem var iables in binary strings. However , t he coding of realvalued vari ables in finit e-length st rings causes a number of difficulties: inability to achieve arbit rary pr ecision in the obtained solution , fixed mapping of problem var iab les, inh eren t Hamming cliff problem associated wit h binary coding, and processing of Holland 's schemata in cont inuous search space. Although a number of real-coded GAs are developed to solve optimization problems having a cont inuous search space, the search powers of these crossover operators are not adequate . In t his paper , t he search power of a crossover operator is defined in terms of the probability of creating an arbitrary child solut ion from a given pair of parent solutions . Motivated by the success of binarycoded GAs in discrete search space problems , we develop a real-coded crossover (which we call the simulated binar y crossover , or SBX) operator whose search power is similar to that of the single-point crossover used in binary-coded GAs . Simulation results on a nu mber of realvalued test problems of varying difficulty and dimensionality suggest t hat the real-cod ed GAs with the SBX operator ar e ab le to perfor m as good or bet ter than binary-cod ed GAs wit h the single-po int crossover. SBX is found to be particularly useful in problems having mult ip le optimal solutions with a narrow global basin an d in prob lems where the lower and upper bo unds of the global optimum are not known a priori. Further , a simulation on a two-var iable blocked function shows that the real-coded GA with SBX work s as suggested by Goldbergread more
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Multiobjective genetic algorithm strategies for electricity production from generation IV nuclear technology
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TL;DR: In this article, a multi-objective optimization library (MULTIGEN) is developed to tackle all types of problems arising from cogeneration, and two practical examples are presented in the last section: the first is devoted to a bicriteria optimization of both exergy destruction and total cost of the plant, for a generating cycle coupled with a very high temperature Reactor (VHTR).
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Bi-objective portfolio optimization using a customized hybrid NSGA-II procedure
TL;DR: A bi-objective evolutionary algorithm is modified to develop a customized hybrid NSGA-II procedure for handling situations that are non-conventional for classical QP approaches and it is demonstrated how evolutionary algorithms enable the proposed procedure to find fronts that can be difficult for other methods to obtain.
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Risk-Cost Optimization of Hydraulic Structures: Methodology and Case Study
TL;DR: An innovative evolutionary-computation-based multi-objective model is developed as a remedy to shortcomings of existing common methods and can effectively enlarge the decision maker’s scope to more efficiently determine the optimum design of the system.
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Many-objectives multilevel thresholding image segmentation using Knee Evolutionary Algorithm
TL;DR: The experimental results show that the KnEA method has a better approximation to the optimal Pareto fronts than the other MaOPs method in terms of the quality of the segmented image such as the peak signal-to-noise ratio (PSNR), the structural similarity index (SSIM), and the computational time.
References
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Book
Evolutionsstrategie : Optimierung technischer Systeme nach Prinzipien der biologischen Evolution
A Survey of Evolution Strategies.
TL;DR: Evolution Strategies are algorithms which imitate the principles of natural evolution as a method to solve parameter optimization problems and adaptation of the strategy parameters for the mutation variances as well as their covariances are described.
Journal Article
Genetic algorithms, noise, and the sizing of populations
TL;DR: Results suggest how the sizing equation may be viewed as a coarse delineation of a boundary between what a physicist might call two distinct phases of GA behavior, and how these results may one day lead to rigorous proofs of convergence for recombinative G As operating on problems of bounded description.
Forma Analysis and Random Respectful Recombination.
TL;DR: Intrinsic parallelism is shown to have application beyond schemata and o-schemata and more general objects called formae are introduced and general operators which manipulate these are introduced.