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Multi-Objective Big Data View Materialization Using Improved Strength Pareto Evolutionary Algorithm

Multi-Objective Big Data View Materialization Using Improved Strength Pareto Evolutionary Algorithm

Akshay Kumar, T. V. Vijay Kumar
Copyright: © 2022 |Volume: 15 |Issue: 1 |Pages: 23
ISSN: 1938-7857|EISSN: 1938-7865|EISBN13: 9781683180340|DOI: 10.4018/JITR.299947
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MLA

Kumar, Akshay, and T. V. Vijay Kumar. "Multi-Objective Big Data View Materialization Using Improved Strength Pareto Evolutionary Algorithm." JITR vol.15, no.1 2022: pp.1-23. http://doi.org/10.4018/JITR.299947

APA

Kumar, A. & Vijay Kumar, T. V. (2022). Multi-Objective Big Data View Materialization Using Improved Strength Pareto Evolutionary Algorithm. Journal of Information Technology Research (JITR), 15(1), 1-23. http://doi.org/10.4018/JITR.299947

Chicago

Kumar, Akshay, and T. V. Vijay Kumar. "Multi-Objective Big Data View Materialization Using Improved Strength Pareto Evolutionary Algorithm," Journal of Information Technology Research (JITR) 15, no.1: 1-23. http://doi.org/10.4018/JITR.299947

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Abstract

Big data refers to the enormous heterogeneous data being produced at a brisk pace by a large number of diverse data generating sources. Since traditional data processing technologies are unable to process big data efficiently, big data is processed using newer distributed storage and processing frameworks. Big data view materialization is a technique to process big data queries efficiently on these distributed frameworks. It generates valuable information, which can be used to take timely decisions, especially in cases of disasters. As there are a very large number of big data views, it is not possible to materialize all of them. Therefore, a subset of big data views needs to be selected for materialization, which optimizes the query response time for a given set of workload queries with minimum overheads. This big data view materialization problem, having objectives minimization of the query evaluation cost of a set of workload queries, while simultaneously minimizing the update processing costs of the materialized views, has been addressed using improved strength pareto evolutionary algorithm (SPEA-2) in this paper. The proposed big data view selection algorithm, which is able to compute a set of diverse non-dominated big data views, is shown to perform better that existing big data view selection algorithms..