Secure device authentication and key agreement mechanism for LoRaWAN based IoT networks

IF 1.5 4区 计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING Concurrency and Computation-Practice & Experience Pub Date : 2024-10-03 DOI:10.1002/cpe.8283
Devishree Naidu, Niranjan K. Ray
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Abstract

The proposed work introduces two schemes for secure device authentication and key agreement (SDA & KA) mechanisms. Initially, an efficient implicit certificate approach based on the Elliptic curve Qu–Vanstone (EIC-EcQuV) scheme is developed in the first stage to instantly concur on the session key. The proposed scheme implicitly performs quick authentication of the public key. Also, this scheme prevents the attacker from creating fake key combinations. Through EIC-EcQuV, the implicit certificate (IC) is distributed which helps to implicitly authenticate the user. This work also proposes ithe developed Public Key Certificateless Cryptosystem (PKCIC) scheme in the second stage, whch was also for the SDA & KA mechanism. In the EIC-EcQuV scheme, efficient authentication is enabled, but public key theft is possible. However, in the PKCIC scheme, authentication is performed through partial keys, and the public key is secured via the Schnorr signature. The efficiency of the proposed schemes is proved by comparing the attained results with previous schemes. The proposed method obtains the computational cost of 0.0583 s for end-to-end devices, 0.06111 for network servers, and 0.00071 s for the gateway, with an execution time of 78.624 for 1000 devices. The attained key agreement of the proposed EIC-EcQuV is 0.953 s, and PKCIC is 0.9988 s.

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基于 LoRaWAN 的物联网网络的安全设备认证和密钥协议机制
所提出的工作为安全设备认证和密钥协议(SDA & KA)机制引入了两种方案。首先,在第一阶段开发了一种基于椭圆曲线Qu-Vanstone(EIC-EcQuV)方案的高效隐式证书方法,以即时商定会话密钥。所提出的方案可隐含地对公钥进行快速验证。此外,该方案还能防止攻击者创建虚假密钥组合。通过 EIC-EcQuV,分发的隐式证书(IC)有助于对用户进行隐式认证。这项工作还在第二阶段提出了它开发的公钥无证书密码系统(PKCIC)方案,该方案也适用于 SDA & KA 机制。在 EIC-EcQuV 方案中,验证是有效的,但公钥有可能被盗。然而,在 PKCIC 方案中,认证是通过部分密钥进行的,而公钥则是通过施诺尔(Schnorr)签名来确保安全的。通过将所取得的结果与以前的方案进行比较,证明了所提方案的效率。对于端到端设备,建议方法的计算成本为 0.0583 秒;对于网络服务器,建议方法的计算成本为 0.06111 秒;对于网关,建议方法的计算成本为 0.00071 秒;对于 1000 个设备,建议方法的执行时间为 78.624 秒。提议的 EIC-EcQuV 实现的密钥协议时间为 0.953 秒,PKCIC 为 0.9988 秒。
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来源期刊
Concurrency and Computation-Practice & Experience
Concurrency and Computation-Practice & Experience 工程技术-计算机:理论方法
CiteScore
5.00
自引率
10.00%
发文量
664
审稿时长
9.6 months
期刊介绍: Concurrency and Computation: Practice and Experience (CCPE) publishes high-quality, original research papers, and authoritative research review papers, in the overlapping fields of: Parallel and distributed computing; High-performance computing; Computational and data science; Artificial intelligence and machine learning; Big data applications, algorithms, and systems; Network science; Ontologies and semantics; Security and privacy; Cloud/edge/fog computing; Green computing; and Quantum computing.
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