Security and QoS issues in blockchain enabled next-generation smart logistic networks: A tutorial

IF 6.9 3区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS
Anjali Vaghani , Keshav Sood , Shui Yu
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引用次数: 8

Abstract

The blockchain-enabled smart logistics market is expected to grow worth USD 1620 billion and at a compound annual growth rate of 62.4%. Smart logistics ensures intelligence infrastructure, logistics automation, real-time analysis of supply chain data synchronization of the logistics process, cost transparency, unbroken shipment tracking all the way down to the transportation route, etc. In the smart logistics domain, significant advancement and growth of the Internet of Things (IoT) sensors are evident. However, the connectivity of IoT systems, including Tactile Internet, without proper safeguards creates vulnerabilities that can still be deliberately or inadvertently cause disruption. In view of this, we primarily notice two key issues. Firstly, the logistics domain can be compromised by a variety of natural or man-made activities, which eventually affect the overall network security. Secondly, there are thousands of entities in the supply chain network that use extensive machine-learning algorithms in many scenarios, and they require high-power computational resources. From these two challenges, we note that the first concern can be addressed by adding blockchain to IoT logistic networks. The second issue can be addressed using 6G. This will support 1-μs latency communications, support seamless computing at the edges of networks, and autonomously predict the best optimal location for edge computing. Motivated by this, we have highlighted motivational examples to show the necessity to integrate 6G and blockchain in smart logistic networks. Then, we have proposed a 6G and blockchain-enabled smart logistic high-level framework. We have presented the key intrinsic issues of this framework mainly from the security and resource management context. In this paper, recent state-of-the-art advances in blockchain enabled next-generation smart logistic networks are analyzed. We have also examined why 6G and not 5G would be compatible with the smart network. We have introduced five different use cases of blockchain technology in smart logistics. Later, this paper discusses some important concerns that blockchain in smart logistics might face. We have also provided potential solutions to tackle these concerns.

区块链支持的下一代智能物流网络中的安全和QoS问题:教程
基于区块链的智能物流市场预计将增长16200亿美元,复合年增长率为62.4%。智能物流确保了基础设施的智能化、物流自动化、供应链数据的实时分析、物流过程的同步化、成本的透明化、运输路线的全程不间断跟踪等。在智能物流领域,物联网(IoT)传感器的显著进步和增长是显而易见的。然而,物联网系统(包括触觉互联网)的连接性,如果没有适当的保护措施,就会产生漏洞,这些漏洞仍然可能故意或无意地造成破坏。鉴于此,我们主要注意到两个关键问题。首先,物流领域可能受到各种自然或人为活动的破坏,最终影响整体网络安全。其次,供应链网络中有成千上万的实体在许多场景中使用大量的机器学习算法,它们需要高性能的计算资源。从这两个挑战中,我们注意到,第一个问题可以通过将区块链添加到物联网物流网络中来解决。第二个问题可以使用6G解决。这将支持1 μs延迟通信,支持网络边缘的无缝计算,并自主预测边缘计算的最佳位置。受此推动,我们强调了一些励志的例子,以展示在智能物流网络中整合6G和区块链的必要性。然后,我们提出了一个支持6G和区块链的智能物流高层框架。我们主要从安全和资源管理上下文中介绍了该框架的关键内在问题。在本文中,分析了支持区块链的下一代智能物流网络的最新进展。我们还研究了为什么6G而不是5G将与智能网络兼容。我们介绍了区块链技术在智能物流中的五个不同用例。随后,本文讨论了区块链在智能物流中可能面临的一些重要问题。我们还提供了解决这些问题的潜在解决方案。
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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来源期刊
CiteScore
11.30
自引率
3.60%
发文量
0
期刊介绍: Blockchain: Research and Applications is an international, peer reviewed journal for researchers, engineers, and practitioners to present the latest advances and innovations in blockchain research. The journal publishes theoretical and applied papers in established and emerging areas of blockchain research to shape the future of blockchain technology.
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