Designing Scalable Consensus Mechanisms for Decentralized Systems in Addressing Security Performance and Resilience in Adversarial Environments

Debesh Ghosh

Authors

Debesh Ghosh India Author

Keywords:

Consensus Mechanisms, Decentralized Systems, Scalability, Security, Adversarial Environments, Resilience

Abstract

Decentralized systems have become the backbone of numerous applications, ranging from cryptocurrencies to distributed databases. The success of these systems heavily relies on the underlying consensus mechanisms, which must be scalable, secure, and resilient, particularly in adversarial environments. This paper explores the design principles and challenges of scalable consensus mechanisms, with an emphasis on enhancing security, performance, and resilience. By analyzing existing literature, we identify limitations in current approaches and propose design considerations that address these challenges. Our findings provide insights into developing robust decentralized systems capable of functioning effectively under adversarial conditions.

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