An Adaptive Random Walk Algorithm for Selecting Tips in the Tangle

Fatemeh Sedighipour Chafjiri, Mohamad Mehdi Esnaashari Esfahani
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引用次数: 1

Abstract

Number of devices using Internet is increasing every day and this fact makes the need to improve the Internet of things protocol more than ever. Data protection and privacy is one of the key challenges in the Internet of Things technology. Dangers involved in the centralized technology of Blockchain system have led to the idea of using Tangle, which is a decentralized system. The main purpose of this new technology is to improve the problems and limitations of Blockchain such as high cost and time to confirm a transaction. In this new architecture, every node is involved in maintaining network security. This way, if a transaction is created, then it should select and confirm two unconfirmed transactions issued before. A walking algorithm is needed for this selection. Walking algorithms presented in literature thus far are either weighted or unweighted. An unweighted random walk algorithm can approve transactions nearly proportional to the time of their arrivals while a weighted algorithm can better defend against lazy and malicious transactions. In this paper, a new random walk algorithm is presented that has the benefits of both algorithms at the same time. The idea is to adapt the weight value to the current situation of transactions. Numerical results have shown the superiority of the proposed algorithm in comparison to the existing algorithms in providing a balance between timeliness of approving transactions and protecting against malicious activities.
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一种自适应随机游走算法在缠结中选择提示
使用互联网的设备数量每天都在增加,这一事实使得比以往任何时候都更需要改进物联网协议。数据保护和隐私是物联网技术的关键挑战之一。区块链系统的中心化技术所涉及的危险导致了使用Tangle的想法,这是一个去中心化的系统。这项新技术的主要目的是改善区块链的问题和局限性,例如确认交易的高成本和时间。在这种新的体系结构中,每个节点都参与维护网络安全。这样,如果创建了一个事务,那么它应该选择并确认之前发布的两个未确认的事务。这种选择需要一种行走算法。迄今为止,文献中提出的行走算法要么是加权的,要么是未加权的。非加权随机漫步算法可以批准与到达时间成正比的交易,而加权算法可以更好地防御懒惰和恶意交易。本文提出了一种同时具有两种算法优点的随机漫步算法。其思想是使权重值适应当前的交易情况。数值结果表明,与现有算法相比,该算法在审批交易的时效性和防止恶意活动之间提供了平衡。
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