An ICMetrics Based Lightweight Security Architecture Using Lattice Signcryption

Ruhma Tahir, K. Mcdonald-Maier
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引用次数: 7

Abstract

The advent of embedded systems has completely transformed the information landscape. With the explosive growth in the use of interactive real-time technologies, this internet landscape aims to support an even broader range of application domains. The large amount of data that is exchanged by these applications has made them an attractive target for attacks. Thus it is important to employ security mechanisms to protect these systems from attackers. A major challenge facing researchers is the resource constrained nature of these systems, which renders most of the traditional security mechanisms almost useless. In this paper we propose a lightweight ICmetrics based security architecture using lattices. The features of the proposed architecture fulfill both the requirements of security as well as energy efficiency. The proposed architecture provides authentication, confidentiality, non-repudiation and integrity of data. Using the identity information derived from ICmetrics of the device, we further construct a sign cryption scheme based on lattices that makes use of certificate less PKC to achieve the security requirements of the design. This scheme is targeted on resource constrained environments, and can be used widely in applications that require sufficient levels of security with limited resources.
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一种基于ICMetrics的使用点阵签名加密的轻量级安全体系结构
嵌入式系统的出现彻底改变了信息领域。随着交互式实时技术使用的爆炸式增长,这种互联网格局旨在支持更广泛的应用领域。这些应用程序交换的大量数据使它们成为有吸引力的攻击目标。因此,重要的是采用安全机制来保护这些系统免受攻击者的攻击。研究人员面临的一个主要挑战是这些系统的资源约束性质,这使得大多数传统的安全机制几乎毫无用处。在本文中,我们提出了一种使用格的轻量级的基于ICmetrics的安全架构。所提出的体系结构的特点既满足了安全性要求,又满足了能效要求。所提出的体系结构提供了数据的身份验证、机密性、不可否认性和完整性。利用从设备的ICmetrics中获得的身份信息,我们进一步构建了一个基于格的符号加密方案,该方案利用证书较少的PKC来实现设计的安全要求。该方案针对资源受限的环境,可广泛用于需要足够安全级别和有限资源的应用程序。
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