基于区块链的中央银行数字货币的可审计、隐私保护、透明的未支出交易输出模型

Md. Mainul Islam;Hoh Peter IN
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引用次数: 0

摘要

可审计性、隐私性、透明度和弹性是中央银行数字货币(CBDC)系统的四个基本属性。然而,要同时满足这些属性却很难。这个问题已成为全球正在进行的 CBDC 项目面临的关键挑战。在本文中,我们提出了一种新颖的未支出交易输出(UTXO)模型,该模型可在联盟区块链网络中提供可审计、保护隐私、透明的 CBDC 支付。该模型采用一种名为零知识轻量级透明知识证明(zk-LTARK)的高速、非交互式零知识证明方案来验证UTXO的所有权。该方案提供低延迟的证明生成和验证,同时以较小的证明规模维持 128 位安全性。它还提供了内存效率高、保护隐私的多方计算和多签名协议。通过使用 zk-LTARK,用户不需要大量的公私密钥对来保护隐私,从而降低了密钥管理的风险。分散式标识符用于验证用户身份,无需与任何集中式服务器交互,避免了单点故障。该模型在一个定制的联盟区块链网络中实施,采用了授权证明共识算法。
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An Auditable, Privacy-Preserving, Transparent Unspent Transaction Output Model for Blockchain-Based Central Bank Digital Currency
Auditability, privacy, transparency, and resiliency are four essential properties of a central bank digital currency (CBDC) system. However, it is difficult to satisfy these properties at once. This issue has become a crucial challenge to ongoing CBDC projects worldwide. In this article, we propose a novel unspent transaction output (UTXO) model, which offers auditable, privacy-preserving, transparent CBDC payments in a consortium blockchain network. The proposed model adopts a high-speed, non-interactive zero-knowledge proof scheme named zero-knowledge Lightweight Transparent ARgument of Knowledge (zk-LTARK) scheme to verify the ownership of UTXOs. The scheme provides low-latency proof generation and verification while maintaining 128-bit security with a smaller proof size. It also provides memory-efficient, privacy-preserving multi-party computation and multi-signature protocols. By using zk-LTARKs, users do not require numerous private–public key pairs to preserve privacy, which reduces risks in key management. Decentralized identifiers are used to authenticate users without interacting with any centralized server and avoid a single point of failure. The model was implemented in a customized consortium blockchain network with the proof-of-authority consensus algorithm.
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