Wyniki wyszukiwania

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Phenotypic evolution with a mutation based on symmetric α-stable distributions

100%

Obuchowicz A., Prętki P.

International Journal of Applied Mathematics and Computer Science

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2004

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tom 14

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nr 3

289-316

EN

Multidimensional Symmetric α-Stable (SαS) mutations are applied to phenotypic evolutionary algorithms. Such mutations are characterized by non-spherical symmetry for α<2 and the fact that the most probable distance of mutated points is not in a close neighborhood of the origin, but at a certain distance from it. It is the so-called surrounding effect (Obuchowicz, 2001b; 2003b). For α=2, the SαS mutation reduces to the Gaussian one, and in the case of α=1, the Cauchy mutation is obtained. The exploration and exploitation abilities of evolutionary algorithms, using SαS mutations for different α, are analyzed by a set of simulation experiments. The obtained results prove the important influence of the surrounding effect of symmetric α-stable mutations on both the abilities considered.

2

Customized crossover in evolutionary sets of safe ship trajectories

100%

Szłapczyński R., Szłapczyńska J.

International Journal of Applied Mathematics and Computer Science

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2012

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tom 22

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nr 4

999-1009

EN

The paper presents selected aspects of evolutionary sets of safe ship trajectories-a method which applies evolutionary algorithms and some of the assumptions of game theory to solving ship encounter situations. For given positions and motion parameters of the ships, the method finds a near optimal set of safe trajectories of all ships involved in an encounter. The method works in real time and the solutions must be returned within one minute, which enforces speeding up the optimisation process. During the development of the method the authors tested various problem-dedicated crossover operators to obtain the best performance. The results of that research are given here. The paper includes a detailed description of these operators as well as statistical simulation results and examples of experiment results.

3

Evolutionary algorithms for job-shop scheduling

100%

Mesghouni K., Hammadi S., Borne P.

International Journal of Applied Mathematics and Computer Science

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2004

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tom 14

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nr 1

91-103

EN

This paper explains how to use Evolutionary Algorithms (EA) to deal with a flexible job shop scheduling problem, especially minimizing the makespan. The Job-shop Scheduling Problem (JSP) is one of the most difficult problems, as it is classified as an NP-complete one (Carlier and Chretienne, 1988; Garey and Johnson, 1979). In many cases, the combination of goals and resources exponentially increases the search space, and thus the generation of consistently good scheduling is particularly difficult because we have a very large combinatorial search space and precedence constraints between operations. Exact methods such as the branch and bound method and dynamic programming take considerable computing time if an optimum solution exists. In order to overcome this difficulty, it is more sensible to obtain a good solution near the optimal one. Stochastic search techniques such as evolutionary algorithms can be used to find a good solution. They have been successfully used in combinatorial optimization, e.g. in wire routing, transportation problems, scheduling problems, etc. (Banzhaf et al., 1998; Dasgupta and Michalewicz, 1997). Our objective is to establish a practical relationship between the development in the EA area and the reality of a production JSP by developing, on the one hand, two effective genetic encodings, such as parallel job and parallel machine representations of the chromosome, and on the other, genetic operators associated with these representations. In this article we deal with the problem of flexible job-shop scheduling which presents two difficulties: the first is the assignment of each operation to a machine, and the other is the scheduling of this set of operations in order to minimize our criterion (e.g. the makespan).

4

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A new approach to nonlinear modelling of dynamic systems based on fuzzy rules

88%

Bartczuk Ł., Przybył A., Cpałka K.

International Journal of Applied Mathematics and Computer Science

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2016

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tom 26

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nr 3

603-621

EN

For many practical weakly nonlinear systems we have their approximated linear model. Its parameters are known or can be determined by one of typical identification procedures. The model obtained using these methods well describes the main features of the system's dynamics. However, usually it has a low accuracy, which can be a result of the omission of many secondary phenomena in its description. In this paper we propose a new approach to the modelling of weakly nonlinear dynamic systems. In this approach we assume that the model of the weakly nonlinear system is composed of two parts: a linear term and a separate nonlinear correction term. The elements of the correction term are described by fuzzy rules which are designed in such a way as to minimize the inaccuracy resulting from the use of an approximate linear model. This gives us very rich possibilities for exploring and interpreting the operation of the modelled system. An important advantage of the proposed approach is a set of new interpretability criteria of the knowledge represented by fuzzy rules. Taking them into account in the process of automatic model selection allows us to reach a compromise between the accuracy of modelling and the readability of fuzzy rules.

5

Heuristic algorithms for optimization of task allocation and result distribution in peer-to-peer computing systems

88%

Chmaj G., Walkowiak K., Tarnawski M., Kucharzak M.

International Journal of Applied Mathematics and Computer Science

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2012

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tom 22

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nr 3

733-748

EN

Recently, distributed computing system have been gaining much attention due to a growing demand for various kinds of effective computations in both industry and academia. In this paper, we focus on Peer-to-Peer (P2P) computing systems, also called public-resource computing systems or global computing systems. P2P computing systems, contrary to grids, use personal computers and other relatively simple electronic equipment (e.g., the PlayStation console) to process sophisticated computational projects. A significant example of the P2P computing idea is the BOINC (Berkeley Open Infrastructure for Network Computing) project. To improve the performance of the computing system, we propose to use the P2P approach to distribute results of computational projects, i.e., results are transmitted in the system like in P2P file sharing systems (e.g., BitTorrent). In this work, we concentrate on offline optimization of the P2P computing system including two elements: scheduling of computations and data distribution. The objective is to minimize the system OPEX cost related to data processing and data transmission. We formulate an Integer Linear Problem (ILP) to model the system and apply this formulation to obtain optimal results using the CPLEX solver. Next, we propose two heuristic algorithms that provide results very close to an optimum and can be used for larger problem instances than those solvable by CPLEX or other ILP solvers.

Ograniczanie wyników

5 International Journal of Applied Mathematics and Computer Science

1 Bartczuk Ł.

1 Borne P.

1 Chmaj G.

1 Cpałka K.

1 Hammadi S.

1 Kucharzak M.

1 Mesghouni K.

1 Obuchowicz A.

1 Przybył A.

1 Prętki P.

1 Szłapczyńska J.

1 Szłapczyński R.

1 Tarnawski M.

1 Walkowiak K.

1 2016

2 2012

2 2004

Phenotypic evolution with a mutation based on symmetric α-stable distributions

Customized crossover in evolutionary sets of safe ship trajectories

Evolutionary algorithms for job-shop scheduling

A new approach to nonlinear modelling of dynamic systems based on fuzzy rules

Heuristic algorithms for optimization of task allocation and result distribution in peer-to-peer computing systems