使用基于智能合约的数字孪生实现安全、大规模的物联网

Iakovos Pittaras, N. Fotiou, Christos Karapapas, V. Siris, George C. Polyzos
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引用次数: 1

摘要

需要无人值守的物联网(IoT)设备和应用程序的激增凸显了对无缝互操作性和内在安全性的需求。我们认为,分布式账本技术(dlt)由于其分散的性质、透明的操作、不变性和可用性,可以增强此类物联网系统的安全性、可靠性和互操作性。在本文中,我们推进了W3C的物联网(WoT)标准与dlt和智能合约的集成,将智能合约引入(物理)设备或整个网络物理子系统的“数字双胞胎”。也就是说,我们引入了一种基于dlt的架构,用于跨联合物联网系统控制设备,安全、可靠,并具有完全的可审计性。所建议的体系结构提供大量驱动和服务组合,并具有显著的安全属性,例如完全可审计性、透明性和高可用性。具体而言,具有多个动作参数和条件的单个请求可以触发大量可能物理分散的致动器的可靠和安全的致动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Secure, Mass Web of Things Actuation Using Smart Contracts-Based Digital Twins
The proliferation of Internet of Things (IoT) devices and applications that need to cooperate unattended highlights the need for seamless interoperability and intrinsic security. We argue that Distributed Ledger Technologies (DLTs), due to their decentralized nature, transparent operations, immutability, and availability, can enhance the security, reliability, and interoperability of such IoT systems. In this paper, we advance the integration of W3C's Web of Things (WoT) standards with DLTs and smart contracts, introducing smart contracts as “Digital Twins” of (physical) devices, or whole Cyber-Physical subsystems. Namely, we introduce a DLT-based architecture for controlling devices across federated IoT systems, securely, reliably, and with full auditability. The proposed architecture provides mass actuation and service composition with notable security properties, such as full auditability, transparency, and high availability. Specifically, a single request, with multiple action parameters and conditions, can trigger the reliable and secure actuation of a large number of possibly physically dispersed actuators.
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