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Autores principales: Liang, Xinyu, Du, Ruiying, Chen, Jing, Zhang, Yu, Jia, Meng, Cao, Shuangxi, Wei, Yufeng, Yao, Shixiong
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2404.09408
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author Liang, Xinyu
Du, Ruiying
Chen, Jing
Zhang, Yu
Jia, Meng
Cao, Shuangxi
Wei, Yufeng
Yao, Shixiong
author_facet Liang, Xinyu
Du, Ruiying
Chen, Jing
Zhang, Yu
Jia, Meng
Cao, Shuangxi
Wei, Yufeng
Yao, Shixiong
contents As cross-chain technology continues to advance, the scale of cross-chain transactions is experiencing significant expansion. To improve scalability, researchers have turned to the study of cross-chain state channels. However, most of the existing schemes rely on trusted parties to support channel operations. To address this issue, we present Interpipe: a distributed cross-chain state channel scheme. Specifically, we propose a real-time cross-chain synchronization scheme to ensure consistent operations between two blockchains to a cross-chain state channel. Moreover, we propose a batch transaction proof scheme based on recursive SNARK to meet the cross-chain verification needs of large-scale users. Based on the above designs, Interpipe offers protocols for opening, updating, closing, and disputing operations to cross-chain state channels. Security analysis shows that Interpipe has consistency and resistance, and experimental results demonstrate that a cross-chain state channel can be nearly as efficient as an existing intra-chain state channel.
format Preprint
id arxiv_https___arxiv_org_abs_2404_09408
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A Distributed Scalable Cross-chain State Channel Scheme Based on Recursive State Synchronization
Liang, Xinyu
Du, Ruiying
Chen, Jing
Zhang, Yu
Jia, Meng
Cao, Shuangxi
Wei, Yufeng
Yao, Shixiong
Networking and Internet Architecture
As cross-chain technology continues to advance, the scale of cross-chain transactions is experiencing significant expansion. To improve scalability, researchers have turned to the study of cross-chain state channels. However, most of the existing schemes rely on trusted parties to support channel operations. To address this issue, we present Interpipe: a distributed cross-chain state channel scheme. Specifically, we propose a real-time cross-chain synchronization scheme to ensure consistent operations between two blockchains to a cross-chain state channel. Moreover, we propose a batch transaction proof scheme based on recursive SNARK to meet the cross-chain verification needs of large-scale users. Based on the above designs, Interpipe offers protocols for opening, updating, closing, and disputing operations to cross-chain state channels. Security analysis shows that Interpipe has consistency and resistance, and experimental results demonstrate that a cross-chain state channel can be nearly as efficient as an existing intra-chain state channel.
title A Distributed Scalable Cross-chain State Channel Scheme Based on Recursive State Synchronization
topic Networking and Internet Architecture
url https://arxiv.org/abs/2404.09408