A comprehensive security protocol architecture for fully digitalized renewable energy markets
Kalit so'zlar:
Digital Energy Markets, Blockchain, Transaction Security, Cryptography, Smart Contracts, Consensus Algorithms, Renewable Energy, CybersecurityAnnotatsiya
The rapid transformation of global energy systems—from centralized infrastructures to decentralized, digitalized, and renewable-based ecosystems—has created new security challenges for energy transactions. As smart meters, IoT-enabled devices, and blockchain-based platforms become integral to modern energy markets, the need for secure, tamper-resistant, and verifiable transaction protocols grows significantly. This study investigates secure transaction mechanisms used in digital energy markets, including cryptographic authentication, blockchain consensus algorithms, smart-contract automation, and secure peer-to-peer (P2P) energy trading models. The research highlights the comparative advantages of blockchain-based architectures over traditional centralized systems and evaluates global implementations such as Power Ledger, TEPCO, and SonnenCommunity. The results demonstrate that secure protocols substantially improve transparency, reduce fraud, and enhance reliability in digitalized renewable energy markets..
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