Utility-aware Payment Channel Network Rebalance

Proc. VLDB Endow. Pub Date : 2023-10-01 DOI:10.14778/3626292.3626301

Wangze Ni, Pengze Chen, Lei Chen, Peng Cheng, Chen Zhang, Xuemin Lin

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Abstract

The payment channel network (PCN) is a promising solution to increase the throughput of blockchains. However, unidirectional transactions can deplete a user's deposits in a payment channel (PC), reducing the success ratio of transactions (SRoT). To address this depletion issue, rebalance protocols are used to shift tokens from well-deposited PCs to under-deposited PCs. To improve SRoT, it is beneficial to increase the balance of a PC with a lower balance and a higher weight (i.e., more transaction executions rely on the PC). In this paper, we define the utility of a transaction and the utility-aware rebalance (UAR) problem. The utility of a transaction is proportional to the weight of the PC and the amount of the transaction, and inversely proportional to the balance of the receiver. To maximize the effect of improving SRoT, UAR aims to find a set of transactions with maximized utilities, satisfying the budget and conservation constraints. The budget constraint limits the number of tokens shifted in a PC. The conservation constraint requires that the number of tokens each user sends equals the number of tokens received. We prove that UAR is NP-hard and cannot be approximately solved with a constant ratio. Thus, we propose two heuristic algorithms, namely Circuit Greedy and UAR_DC. Extensive experiments show that our approaches outperform the existing approach by at least 3.16 times in terms of utilities.

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公用事业感知支付渠道网络再平衡

支付通道网络（PCN）是提高区块链吞吐量的一种有前途的解决方案。然而，单向交易会耗尽用户在支付通道（PC）中的存款，降低交易成功率（SRoT）。为解决这一消耗问题，使用再平衡协议将代币从存款充足的 PC 转移到存款不足的 PC。为了提高 SRoT，增加余额较低且权重较高的 PC 的余额是有益的（即更多的交易执行依赖于该 PC）。本文定义了交易效用和效用感知再平衡（UAR）问题。交易效用与 PC 的权重和交易金额成正比，与接收方的余额成反比。为了最大限度地提高 SRoT 的效果，UAR 的目标是找到一组效用最大的交易，同时满足预算和保护约束。预算约束限制了 PC 中转移的代币数量。保护约束要求每个用户发送的代币数等于收到的代币数。我们证明，UAR 是 NP 难题，无法以恒定比率近似求解。因此，我们提出了两种启发式算法，即 Circuit Greedy 和 UAR_DC。大量实验表明，就效用而言，我们的方法比现有方法至少高出 3.16 倍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proc. VLDB Endow.

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