A novel cluster detection of COVID-19 patients and medical disease conditions using improved evolutionary clustering algorithm star

To determine the multidistribution center location and the distribution scope of the distribution center with high efficiency, the real-parameter quantum-inspired evolutionary clustering algorithm (RQECA) is proposed. RQECA is applied to choose multidistribution center location on the basis of the conventional fuzzy C-means clustering algorithm (FCM). The combination of the real-parameter quantum-inspired evolutionary algorithm (RQIEA) and FCM can overcome the local search defect of FCM and make the optimization result independent of the choice of initial values. The comparison of FCM, clustering based on simulated annealing genetic algorithm (CSAGA), and RQECA indicates that RQECA has the same good convergence as CSAGA, but the search efficiency of RQECA is better than that of CSAGA. Therefore, RQECA is more efficient to solve the multidistribution center location problem.

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Scalable evolutionary clustering algorithm with Self Adaptive Genetic Operators

IEEE Congress on Evolutionary Computation ◽

10.1109/cec.2010.5586467 ◽

2010 ◽

Cited By ~ 3

Author(s):

Elizabeth Leon ◽

Olfa Nasraoui ◽

Jonatan Gomez

Keyword(s):

Clustering Algorithm ◽

Genetic Operators ◽

Evolutionary Clustering ◽

Self Adaptive

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EvolveCluster: an evolutionary clustering algorithm for streaming data

Evolving Systems ◽

10.1007/s12530-021-09408-y ◽

2021 ◽

Author(s):

Christian Nordahl ◽

Veselka Boeva ◽

Håkan Grahn ◽

Marie Persson Netz

Keyword(s):

Data Streams ◽

Data Stream ◽

Clustering Algorithm ◽

Clustering Algorithms ◽

Streaming Data ◽

Evolutionary Clustering ◽

Stream Clustering ◽

The Past ◽

Data Stream Clustering ◽

Evolving Data

AbstractData has become an integral part of our society in the past years, arriving faster and in larger quantities than before. Traditional clustering algorithms rely on the availability of entire datasets to model them correctly and efficiently. Such requirements are not possible in the data stream clustering scenario, where data arrives and needs to be analyzed continuously. This paper proposes a novel evolutionary clustering algorithm, entitled EvolveCluster, capable of modeling evolving data streams. We compare EvolveCluster against two other evolutionary clustering algorithms, PivotBiCluster and Split-Merge Evolutionary Clustering, by conducting experiments on three different datasets. Furthermore, we perform additional experiments on EvolveCluster to further evaluate its capabilities on clustering evolving data streams. Our results show that EvolveCluster manages to capture evolving data stream behaviors and adapts accordingly.

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An Evolutionary Clustering Approach to Pareto Solutions in Multiobjective Optimization

Volume 2: 28th Design Automation Conference ◽

10.1115/detc2002/dac-34048 ◽

2002 ◽

Cited By ~ 4

Author(s):

Min Joong Jeong ◽

Sinobu Yoshimura

Keyword(s):

Multiobjective Optimization ◽

Engineering Design ◽

Function Space ◽

Clustering Algorithm ◽

Computational Effort ◽

Local Optimum ◽

Pareto Solutions ◽

Evolutionary Clustering ◽

Interpretation Process ◽

Clustering Approach

Pareto solutions in multiobjective optimization are very problematic to measuring the characteristics of solutions for engineering design because of their considerable variety in function space and parameter space. To overcome these situations, a clustering-based interpretation process for Pareto solutions is considered. For better competitive clustering algorithm, we propose an evolutionary clustering algorithm — ECA. The ECA requires less computational effort, and overcomes local optimum of the K-means clustering algorithm and its related algorithms. Effectiveness of the method is examined in detail through the comparison with other algorithms.

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