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Leveraging Machine Learning Algorithms to Enhance Scientific Data Analysis

Authors: Leszek Ziora

Published: 2025-01-07 11:41:13.151

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Abstract

The purpose of this study is to examine the integration of machine learning algorithms in scientific data analysis and its impact on interpretation of genomic data, recognition of patterns in astrophysics, optimization of environmental science predictions, handling of large datasets, and how it integrates with traditional scientific methods. This study tests five central hypotheses by taking a quantitative approach and analyzing data extracted from scientific publications, datasets, and computational models from the period 2010-2023. The paper shows that machine learning dramatically improves the interpretation of genomic data, improves astrophysical pattern recognition, optimizes environmental predictions, handles large datasets more effectively, and enhances the integration of AI with traditional scientific methods. The findings reveal the tremendous role of machine learning in the advancement of scientific research and identify areas for future exploration. The paper discusses the theoretical and practical implications in relation to the importance of machine learning in modernizing computational capabilities within scientific research.

Keywords

Machine Learning, Genomic Data Interpretation, Astrophysical Pattern Recognition, Environmental Science, Prediction Optimization

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How to Cite

Leszek Ziora, (2025-01-07 11:41:13.151). Leveraging Machine Learning Algorithms to Enhance Scientific Data Analysis. Abhi International Journal of Scientific Computing, Volume vZH6gXCrmWsFuEzJN3hb, Issue 1.

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