HCVC: A High-Capacity Off-Chain Virtual Channel Scheme Based on Bidirectional Locking Mechanism

As one of the key components of Web 3.0, the security of cryptocurrency is essential to its development and application. A Payment Channel Network (PCN) enhances transaction confirmation speed and throughput by executing blockchain transactions off-chain. However, existing PCN protocols have problem...

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Veröffentlicht in:	IEEE transactions on network science and engineering 2024-09, Vol.11 (5), p.3995-4006
Hauptverfasser:	Xie, Songyou, Xiao, Lijun, Han, Dezhi, Xie, Kun, Li, Xiong, Liang, Wei
Format:	Artikel
Sprache:	eng
Schlagworte:	bidirectional locking mechanism Bitcoin Blockchain Blockchains Cryptocurrency Digital currencies Locking payment channel network (PCN) Peer-to-peer computing Privacy Protocols Security Semantic Web Throughput virtual channel Web3.0
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container_title	IEEE transactions on network science and engineering
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creator	Xie, Songyou Xiao, Lijun Han, Dezhi Xie, Kun Li, Xiong Liang, Wei
description	As one of the key components of Web 3.0, the security of cryptocurrency is essential to its development and application. A Payment Channel Network (PCN) enhances transaction confirmation speed and throughput by executing blockchain transactions off-chain. However, existing PCN protocols have problems like privacy leaks and offline and challenges in meeting privacy and security demands. Due to such problems, we propose in this work High-Capacity Virtual Channel (HCVC) scheme to achieve payment across PCNs. As a lightweight virtual channel protocol based on the unspent transaction output model, HCVC uses a bidirectional locking mechanism to lock the collateral on payment channels to increase the capacity of the virtual channel. Additionally, a bidirectional punishment mechanism is introduced to deter malicious nodes, maintain balance security, and enable secure peer-to-peer transactions across PCNs, as all phases of HCVC can be performed off-chain without confirming transactions on-chain. Experimental analysis shows that the HCVC performs better in n-path PCNs. Compared to Donner, the communication overhead of HCVC in the open and resolve(undesirable) phases can be reduced by 39% and 37%, respectively, effectively reducing the overhead of transactions and enhancing the transaction throughput of the blockchain.
doi_str_mv	10.1109/TNSE.2023.3332130
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subjects	bidirectional locking mechanism Bitcoin Blockchain Blockchains Cryptocurrency Digital currencies Locking payment channel network (PCN) Peer-to-peer computing Privacy Protocols Security Semantic Web Throughput virtual channel Web3.0
title	HCVC: A High-Capacity Off-Chain Virtual Channel Scheme Based on Bidirectional Locking Mechanism
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