English

A Distributed Scalable Cross-chain State Channel Scheme Based on Recursive State Synchronization

Networking and Internet Architecture 2024-04-16 v1

Abstract

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.

Keywords

Cite

@article{arxiv.2404.09408,
  title  = {A Distributed Scalable Cross-chain State Channel Scheme Based on Recursive State Synchronization},
  author = {Xinyu Liang and Ruiying Du and Jing Chen and Yu Zhang and Meng Jia and Shuangxi Cao and Yufeng Wei and Shixiong Yao},
  journal= {arXiv preprint arXiv:2404.09408},
  year   = {2024}
}
R2 v1 2026-06-28T15:53:59.732Z