Balancing Compliance and Privacy in Offline CBDC Transactions Using a Secure Element-based System

• URL: http://arxiv.org/abs/2509.25469v1
• Date: Mon, 29 Sep 2025 20:19:31 GMT
• Title: Balancing Compliance and Privacy in Offline CBDC Transactions Using a Secure Element-based System
• Authors: Panagiotis Michalopoulos, Anthony Mack, Cameron Clark, Linus Chen, Johannes Sedlmeir, Andreas Veneris,
• Abstract summary: This paper introduces a prototype for offline digital currency payments, equally applicable to cryptocurrencies and CBDCs.<n>Performance evaluation results suggest that the prototype can be flexibly adapted to different regulatory environments.<n>We conceptualize how the integration of Zero-Knowledge Proofs into our design could accommodate various tiers of enhanced privacy protection.
• Score: 0.6157382820537719
• License: http://creativecommons.org/licenses/by-sa/4.0/
• Abstract: Blockchain technology has spawned a vast ecosystem of digital currencies with Central Bank Digital Currencies (CBDCs) -- digital forms of fiat currency -- being one of them. An important feature of digital currencies is facilitating transactions without network connectivity, which can enhance the scalability of cryptocurrencies and the privacy of CBDC users. However, in the case of CBDCs, this characteristic also introduces new regulatory challenges, particularly when it comes to applying established Anti-Money Laundering and Countering the Financing of Terrorism (AML/CFT) frameworks. This paper introduces a prototype for offline digital currency payments, equally applicable to cryptocurrencies and CBDCs, that leverages Secure Elements and digital credentials to address the tension of offline payment support with regulatory compliance. Performance evaluation results suggest that the prototype can be flexibly adapted to different regulatory environments, with a transaction latency comparable to real-life commercial payment systems. Furthermore, we conceptualize how the integration of Zero-Knowledge Proofs into our design could accommodate various tiers of enhanced privacy protection.

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