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International Journal of Next-Generation Engineering and Technology

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Artificial Intelligence for Resilient Decentralized Infrastructures: An Integrative Research Study on Hybrid Renewable Energy Management and Real-Time Digital Payment Fraud Detection

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Dr. Clara E. Whitmore 1 ,
4 Department of Systems Engineering and Digital Infrastructure, University of Glasgow, United Kingdom

Abstract

This article develops an original, publication-ready research study based strictly on the supplied references and addresses two fast-evolving yet structurally comparable domains: intelligent energy management in hybrid renewable energy systems and machine learning-based fraud detection in digital payment ecosystems, especially unified payments interface environments. Although these domains appear operationally distinct, both are increasingly shaped by decentralized decision-making, high-frequency data flows, uncertainty, optimization requirements, and the need for resilience under real-time constraints. The energy literature focuses on hybrid renewable microgrids, off-grid and grid-linked photovoltaic-wind-diesel-battery systems, optimal dispatch, control strategies, sizing, fuzzy logic, and battery-aware power management for rural, autonomous, and distributed infrastructures (Olatomiwa et al., 2016; Aziz et al., 2019; Jasim et al., 2023; Rekioua et al., 2023; Ahmed et al., 2024). The fraud literature emphasizes online transaction risk, phishing, UPI fraud, real-time machine learning detection, hybrid supervised-unsupervised approaches, recurrent and deep neural models, XGBoost, hidden Markov methods, and reduced-label fraud identification for fast digital payment systems (Deng et al., 2020; Jagadeesan et al., 2022; Deshmukh et al., 2023; Nimkar & Pathak, 2024; Shabreshwari et al., 2024).

Using a qualitative integrative methodology, the article synthesizes direct findings and cross-domain patterns from the provided sources. Four principal findings emerge. First, both fields are moving from static or rule-based management toward adaptive, data-driven control. Second, optimization is no longer peripheral; it is the central mechanism through which performance, efficiency, and operational reliability are improved. Third, both energy systems and payment systems depend on real-time intelligent decision support that must function under uncertainty, incomplete information, and highly variable operating conditions. Fourth, the comparative analysis suggests that hybrid renewable microgrids and digital payment platforms should both be understood as critical decentralized infrastructures whose success depends on the co-evolution of prediction, control, security, and trust.

The study concludes that the future of both domains lies in interpretable, robust, and architecture-aware intelligence that can handle distributed assets, dynamic user behavior, cyber-risk, and system-level coordination. Rather than treating energy management and fraud detection as unrelated specializations, the article demonstrates that they reveal a shared paradigm of intelligent infrastructure governance. This integrative perspective opens a pathway for future research on resilient decision systems in consequential real-world environments.

Keywords

Hybrid renewable energy systems, microgrid energy management, digital payment fraud

References

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