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Issue title: High-Performance Computing
Guest editors: Achyut Shankar
Article type: Research Article
Authors: Zou, Wenjing* | Xu, Huan | Yang, Qiuyong | Dong, Can | Su, Wenwei
Affiliations: China Southern Power Grid Co., Ltd., Guangzhou, Guangdong, China
Correspondence: [*] Corresponding author: Wenjing Zhou, China Southern Power Grid Internet Service Co. Ltd, Guangzhou 510060, Guangdong, China. E-mail: zouwenjin95598@163.com.
Abstract: Currently, the data management of power enterprises faces the need to analyze data sources from multiple places. However, traditional multi-source data fabric systems have problems such as low analysis efficiency and high error rates, which brings great inconvenience to the data analysis of power enterprises. In order to improve the accuracy and efficiency of data analysis in data structure systems, the intelligent system architecture is applied to the construction of source data structure systems. The main modules are data collection, data matching, data integration, and data analysis. This article uses simulated annealing genetic algorithm to perform high-performance calculations on system timing data, thus achieving data matching. This article conducted data level data integration, feature level data integration, and decision level data integration. The access survey method was used to analyze the current data management problems faced by power companies. The evaluation and analysis of general multi-source data fabric systems and multi-source data fabric systems based on intelligent system architecture were conducted using the evaluation panel evaluation method. The analysis results showed that the operational convenience of the multi-source data fabric system based on intelligent system architecture could reach 60%–80%, which greatly improved compared to general multi-source data fabric systems; the information sharing of multi-source data fabric systems based on intelligent system architecture was greatly improved; the data processing efficiency of general multi-source data fabric systems was much lower than that of multi-source data fabric systems based on intelligent system architecture; however, the symmetry of data collection and matching in the multi-source data fabric system based on intelligent system architecture was slightly insufficient, and further improvement was still needed. In order to benefit more power companies through the intelligent system architecture based multi-source data fabric system, it was necessary to strengthen the management of data collection and matching symmetry.
Keywords: Data fabric, intelligent system architecture, multi-source data, electricity companies, simulated annealing genetic algorithm
DOI: 10.3233/IDT-230240
Journal: Intelligent Decision Technologies, vol. 18, no. 4, pp. 2855-2872, 2024
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