Enhancing Cyber-Physical-Social Systems through Decentralized Governance and Blockchain-based Digital Twins

Hosseini Bamakan,  Seyed Mojtaba; Dehghan, Farnaz; Banaeian Far, Saeed; Zareravasan,  Ahad

Enhancing Cyber-Physical-Social Systems through Decentralized Governance and Blockchain-based Digital Twins

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Authors	HOSSEINI BAMAKAN Seyed Mojtaba DEHGHAN Farnaz BANAEIAN FAR Saeed ZARERAVASAN Ahad
Year of publication	2025
Type	Article in Proceedings
Conference	Procedia Computer Science
MU Faculty or unit	Faculty of Economics and Administration
Citation
web	https://www.sciencedirect.com/science/article/pii/S1877050925024317
Doi	https://doi.org/10.1016/j.procs.2025.08.120
Keywords	Cyber-Physical-Social Systems; Digital Twins; Decentralized Governance; Blockchain Technology
Attached files	1-s2.0-S1877050925024317-main.pdf
Description	Cyber-Physical-Social Systems (CPSS), as emerging paradigms, are evolving to address the growing need for intelligent, adaptive, and transparent decision-making in complex environments such as smart cities and industrial systems. However, the advancements enabled by Digital Twins (DTs), centralized governance models, and opaque analytics limit scalability and resilience. In this study, we propose a decentralized governance framework that integrates Decentralized Autonomous Organizations (DAOs) and blockchain-based predictive analytics to enhance trust, interoperability, and ethical decision-making for CPSS. The proposed framework utilizes immutable ledgers, automated smart contracts, and community-driven governance to improve real-time collaboration, thereby ensuring system resilience and facilitating adaptive optimization. The remarkable innovation of the CPSS framework lies in combining digital tokens (DTs) within a blockchain application. We believe that our approach provides a scalable mechanism for autonomous decision-making and secure data sharing across multi-stakeholder ecosystems. In this regard, using theoretical analysis and comparative evaluations, we have demonstrated how our framework mitigates conventional challenges in CPSS governance, including security vulnerabilities, algorithmic fairness, and data integrity. Moreover, this research makes a significant contribution to the advancement of decentralized digital twin (DT) infrastructures, paving the way for more robust, ethically aligned, and resilient cyber-physical systems. © 2025 The Authors.
Related projects:	MSCAfellow7_MUNI