Enhancing Power Grid Data Analysis with Fusion Algorithms for Efficient Association Rule Mining in Large-Scale Datasets

Authors

  • Qiongqiong Sun PingDingShan Vocational and Technical College, Pingdingshan, Henan, China

DOI:

https://doi.org/10.15837/ijccc.2024.3.6232

Keywords:

large-scale datasets, efficient correlation, rule mining, data warehouse, time series, information analysis, voltage interaction.

Abstract

Against the backdrop of the rapid development of information technology, the total amount of data has exploded, and efficient association rule mining methods for large-scale datasets have been studied. Conventional rule mining algorithms are subject to electrical constraints when working, and their convergence speed and data noise are currently the main problems they face. In order to accelerate the working process of the algorithm, this study introduces a data warehouse into the K-Means algorithm, and connects the time series and voltage interaction functions with the long-and-short-term memory network for efficient information analysis of power grid data, generating fusion algorithms. The study conducted experiments on the Netloss dataset and simultaneously conducted experiments on three models, including long-and-short-term memory networks, to verify the superiority of the fusion algorithm. Under the same experimental voltage, the circuit power flows of the four models were 0.37, 0.64, 0.79, and 0.82A, respectively, indicating that the algorithm effectively controlled the electrical dataset. Its measurement accuracy was the highest among the four models, at 91.7%. The experimental results show that the fusion algorithm proposed in the study has precise control ability in power grid datasets, and can effectively mine association rules on large-scale datasets.

References

Et-taleby, A.; Chaibi, Y.; Boussetta, M. (2022). A novel fault detection technique for PV systems based on the KM algorithm, coded wireless Orthogonal Frequency Division Multiplexing, and thermal image processing techniques. Solar Energy, 237(May), 365-376, 2022.

Oslund, S.; Washington, C.; So, A.; Chen, T.; Ji, H. (2022). Multiview Robust Adversarial Stickers for Arbitrary Objects in the Physical World. Journal of Computational and Cognitive Engineering, 1(4), 152-158, 2022.

Zhou, Z.; Li, J.; Tu, J. (2021). Clustering of nasopharyngeal carcinoma intensity-modulated radiation therapy plans based on KM algorithm and geometrical features. International Journal of Radiation Research, 19(1), 13-21, 2021.

Zhang, C.; Zhao, Y.; Zhou, Y.; Zhang, X.; Li, T. (2022). A real-time abnormal operation pattern detection method for building energy systems based on association rule bases. Building Simulation, 15(1), 69-81, 2022.

Zhang, Q.; Geng, G.; Tu, Q. (2023). Association mining-based method for enterprise’s technological innovation intelligent decision making under big data, International Journal of ComputersCommunications& Control, 18(2), 5241, 2023.https://doi.org/10.15837/ijccc.2023.2.5241

Mao, Y., Liu, S. & Gong, D. (2023). A Text Mining and Ensemble Learning Based Approach for Credit Risk Prediction. Tehnički vjesnik, 30 (1), 138-147. https://doi.org/10.17559/TV- 20220623113041

Yang, Y.;, Tian, N.; Wang, Y.; Yuan. (2022). A Parallel FP-Growth Mining Algorithm with LoadBalancing Constraints for Traffic Crash Data, International Journal of Computers Communications& Control, 17(4), 4806, 2022.https://doi.org/10.15837/ijccc.2022.4.4806

Meesala, S. R.; Subramanian, S. (2022). Feature-based opinion analysis on social media tweets with association rule mining and multi-objective evolutionary algorithms. Concurrency and Computation: Practice and Experience, 34(3), 1-25, 2022.

Kota, V.; Munisamy, S. (2022). High accuracy offering attention mechanisms based deep learning approach using CNN/bi-LSTM for sentiment analysis. International Journal of Intelligent Computing and Cybernetics, 15(1), 61-74, 2022.

Burlăcioiu, C., Boboc, C., Mirea, B., Dragne, I. (2023), Text Mining In Business. A Study of Romanian Client’s Perception with Respect to Using Telecommunication and Energy Apps. Economic Computation and Economic Cybernetics Studies and Research, 57(1), pp. 221-234, DOI:10.24818/18423264/57.1.23.14

Filali,A. E., Lahmer, E. H. B., & Filali S. E.(2022). Machine Learning techniques for Supply Chain Management: A Systematic Literature Review. Journal of System and Management Sciences, 12(2), 79-136, 2022.

Liu, D.; Yang, F.; Liu, S. (2021). Estimating wheat fractional vegetation cover using a density peak KM algorithm based on hyperspectral image data. Journal of Integrative Agriculture, 20(11), 2880-2891, 2021.

Antonello, F.; Baraldi, P.; Shokry, A. (2021). A novel association rule mining method for the identification of rare functional dependencies in complex technical infrastructures from alarm data. Expert Systems with Applications, 170(May), 114560, 2021.

Zhang, J. (2020). Interaction design research based on large data rule mining and blockchain communication technology. Soft Computing, 24(21), 16593-16604, 2020.

Ling, G.; Yu, C.; Wei, L. (2022). Administration Rule of Hyperlipidemic Acute Pancreatitis Based on Data Mining.World Journal of Integrated Traditional and Western Medicine, 8(2), 31-40, 2022.

Peng, F., Sun, Y., Chen, Z. & Gao, J. (2023). An Improved Apriori Algorithm for Association Rule Mining in Employability Analysis. Tehnički vjesnik, 30 (5), 1435-1442, 2023.

Okada, D.; Nakamura, N.; Setoh, K. (2021). Genome-wide association study of individual differences of human lymphocyte profiles using large-scale cytometry data. Journal of Human Genetics, 66(6), 557-567, 2021.

Guo, Y.; Mustafaoglu, Z.; Koundal, D. (2022). Spam Detection Using Bidirectional Transformers and Machine Learning Classifier Algorithms. Journal of Computational and Cognitive Engineering, 2(1), 5–9, 2022.

Syarofina, S.; Bustamam, A.; Yanuar, A. (2021). The distance function approach on the Mini Batch KM algorithm for the DPP-4 inhibitors on the discovery of type 2 diabetes drugs. Procedia Computer Science, 179, 127-134, 2021.

Lobo, J.; Bettencourt, L.; Smith, M.; Ortman, S. (2020). Settlement scaling theory: Bridging the study of ancient and contemporary urban systems. Urban Studies, 57(4), 731-747, 2020.

Fang, W.; Zhuo, W.; Song, Y. (2023). Δfree-LSTM: An error distribution free deep learning for short-term traffic flow forecasting. Neurocomputing, 526(May. 13), 180-190, 2023.

Murti, Y. S. & Naveen, P.(2023). Machine Learning Algorithms for Phishing Email Detection. Journal of Logistics, Informatics and Service Science,10(2), 249-261, 2023.

Ünver, M.; Olgun, M.; Türkarslan, E. (2022). Cosine and cotangent similarity measures based on Choquet integral for Spherical fuzzy sets and applications to pattern recognition. Journal of Computational and Cognitive Engineering, 1(1), 21-31, 2022.

Kesiman, M.; Dermawan, K. (2021). AKSALont: Automatic transliteration application for Balinese palm leaf manuscripts with LSTM Model. Jurnal Teknologi Dan Sistem Komputer, 9(3), 142-149, 2021.

Guo, C. (2020). The evaluation model of reconstruction effect of ancient villages under the influence of epidemic situation based on big data. Journal of Intelligent & Fuzzy Systems, 39(6), 8813-8821, 2020.

Chun, Y. H., & Cho, M. K.(2022).An Empirical Study of Intelligent Security Analysis Methods Utilizing Big Data. Journal of Logistics, Informatics and Service Science, 9(1), 26-35, 2022.

Meng, X.; Xiong, Y.; Shao, F. (2020). A large-scale benchmark data set for evaluating pansharpening performance: Overview and implementation. IEEE Geoscience and Remote Sensing Magazine, 9(1), 18-52, 2020.

Bottin, M.; Peyre, G.; Vargas, C. (2020). Phytosociological data and herbarium collections show congruent large-scale patterns but differ in their local descriptions of community composition. Journal of Vegetation Science, 31(1), 208-219, 2020.

Wang, S., Song, A. & Qian, Y. (2023). Predicting Smart Cities’ Electricity Demands Using KMeans Clustering Algorithm in Smart Grid. Computer Science and Information Systems, 20(2), 657–678, 2023.

Additional Files

Published

2024-05-04

Most read articles by the same author(s)

Obs.: This plugin requires at least one statistics/report plugin to be enabled. If your statistics plugins provide more than one metric then please also select a main metric on the admin's site settings page and/or on the journal manager's settings pages.