English

PRZK-Bind: A Physically Rooted Zero-Knowledge Authentication Protocol for Secure Digital Twin Binding in Smart Cities

Cryptography and Security 2025-08-26 v1 Emerging Technologies Networking and Internet Architecture

Abstract

Digital twin (DT) technology is rapidly becoming essential for smart city ecosystems, enabling real-time synchronisation and autonomous decision-making across physical and digital domains. However, as DTs take active roles in control loops, securely binding them to their physical counterparts in dynamic and adversarial environments remains a significant challenge. Existing authentication solutions either rely on static trust models, require centralised authorities, or fail to provide live and verifiable physical-digital binding, making them unsuitable for latency-sensitive and distributed deployments. To address this gap, we introduce PRZK-Bind, a lightweight and decentralised authentication protocol that combines Schnorr-based zero-knowledge proofs with elliptic curve cryptography to establish secure, real-time correspondence between physical entities and DTs without relying on pre-shared secrets. Simulation results show that PRZK-Bind significantly improves performance, offering up to 4.5 times lower latency and 4 times reduced energy consumption compared to cryptography-heavy baselines, while maintaining false acceptance rates more than 10 times lower. These findings highlight its suitability for future smart city deployments requiring efficient, resilient, and trustworthy DT authentication.

Keywords

Cite

@article{arxiv.2508.17913,
  title  = {PRZK-Bind: A Physically Rooted Zero-Knowledge Authentication Protocol for Secure Digital Twin Binding in Smart Cities},
  author = {Yagmur Yigit and Mehmet Ali Erturk and Kerem Gursu and Berk Canberk},
  journal= {arXiv preprint arXiv:2508.17913},
  year   = {2025}
}

Comments

6 pages, 4 figures, 2 tables, Accepted by IEEE Global Communications Conference (GLOBECOM) 2025

R2 v1 2026-07-01T05:04:25.821Z