Blockchain-Secured and VPN Integrated Power Systems Management

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Revanth P S B.E., Satheeshkumar M.E., G. Karthikeyan M.E., G. Suresh M.E., C. Santhanalakshmi M.E.

Abstract

Integration VPN and blockchain technology for power system management provides a transformative approach to the user by addressing obstacles of data security transparency and efficiency with the help of decentralized energy grids. As a modern power system, it enhances its dependency on distributed renewable energy sources and integrated smart grids which require robust protection of data and operation integrity. Blockchain provides a decentralized immutable laser for securely recording energy transaction monitoring performance and protecting from unauthorized access. This ensures transparency by promoting trust among multiple stakeholders and reducing the risk of Cybercrime. Along with blockchain VPN integration ensures encrypted communication across the power grid and ensures encrypted data transmission between nodes. It is also capable of preventing authorized access and allowing the users to remote monitor securely with the help of a dual layout framework and real-time system optimization. It supports critical applications including energy trading platform demand response programs and improves data privacy and security. Integration with VPN-encrypted connectivity and blockchain-decentralized security power systems can achieve excellent resilience against cybercrime and operational disruptions. This integrated approach created an effective way for efficient and sustainable energy management that supports innovation and trust in a rapidly transforming energy landscape. The present study is going to explore the potential of the blockchain and VPN for securing power systems.

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How to Cite
Blockchain-Secured and VPN Integrated Power Systems Management. (2025). Dandao Xuebao Journal of Ballistics, 37(1), 25-34. https://doi.org/10.52783/dxjb.v37.166
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Articles

How to Cite

Blockchain-Secured and VPN Integrated Power Systems Management. (2025). Dandao Xuebao Journal of Ballistics, 37(1), 25-34. https://doi.org/10.52783/dxjb.v37.166