Exploring the Nexus of Cryptocurrency and Telecommunication: A Comprehensive Literature Review

The rapid evolution of cryptocurrency and telecommunication technologies has brought about significant changes and challenges in various domains. This systematic literature review paper delves into the intricate relationship between cryptocurrency and telecommunication, with a comprehensive examination of key issues, challenges, and potential solutions. By synthesizing insights from a set of 11 relevant articles, this study explores the impact of cryptocurrency on data centers, legal safeguards for block chain and cryptocurrency activities, privacy and security considerations in cryptocurrency transactions, the integration of block chain technology in 5G networks, and the diverse applications of block chain across various domains. The overarching aim of this paper is to provide a holistic understanding of the multifaceted intersection of cryptocurrency and telecommunication. It examines how these themes interconnect and influence each other, offering insights into the implications for industry stakeholders, policymakers, and researchers. By identifying common trends, gaps in the existing literature, and areas requiring further investigation, this review serves as a valuable resource for comprehending the complex dynamics of the cryptocurrency-telecommunication landscape

Peer-to-Peer Energy Trading for Networked Microgrids

Considering the limitations of the existing centralized power infrastructure, research interests have been directed to decentralized smart power systems constructed as networks of interconnected microgrids. Therefore, it has become critical to develop secure and efficient energy trading mechanisms among networked microgrids for reliability and economic mutual benefits. Furthermore, integrating blockchain technologies into the energy sector has gained significant interest among researchers and industry professionals. Considering these trends, the work in this thesis focuses on developing Peer-to-Peer (P2P) energy trading models to facilitate transactions among microgrids in a multiagent network. Price negotiation mechanisms are proposed for both islanded and grid-connected microgrid networks. To enable a trusted settlement of electricity trading transactions, a two-stage blockchain-based settlement consensus protocol is also developed. Simulation results have shown that the model has successfully facilitated energy trading for networked microgrids