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A novel communication-aware adaptive key management approach for ensuring security in IoT networks
Transactions on Emerging Telecommunications Technologies ( IF 2.5 ) Pub Date : 2022-07-22 , DOI: 10.1002/ett.4605 C. Tamizhselvan 1
Transactions on Emerging Telecommunications Technologies ( IF 2.5 ) Pub Date : 2022-07-22 , DOI: 10.1002/ett.4605 C. Tamizhselvan 1
Affiliation
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Internet of Things (IoT) encompasses heterogeneous communication devices and wireless technologies to provide ubiquitous access using end-user devices. It operates on a common website for connecting versatile devices with seamless communication, data access and sharing. Communication through wireless medium requires enormous security features to protect both public and private data across different interconnected resources. Therefore, in this article, a communication-aware adaptive key management (CAKM) is proposed to ensure two levels of security in IoT communication. The two-levels of security include both device and message that is facilitated using certificate authority and key management. By exploiting the benefits of hyper elliptic curve cryptography (HECC), the communication-aware adaptive key management ensures message authentication for the device requests. Initially, the device requests are classified on the basis of its service time and correlated to the time-to-live period of the certificate. The proposed method attains low computational time 10.9%, 30.2%, and 54.3%, high security level 10.9%, 30.2%, and 54.3%, high successful message rate 10.9%, 30.2%, and 54.3% and low key agreement time 10.9%, 30.2%, and 54.3% when compared to the three existing methods, such as bilateral generalization inhomogeneous short integer solution (Bi-GISIS)-based key management in IoT security (Bi-GISIS-IoT), hyper elliptic curve based public key cryptosystem in IoT security (HCCPK-IoT) and enhanced symmetric key-based authentication in IoT security (ESKA-IoT). Finally, the proposed method provides an efficient security with low computational time.
中文翻译:
一种新颖的通信感知自适应密钥管理方法,用于确保物联网网络的安全
物联网 (IoT) 包含异构通信设备和无线技术,可使用最终用户设备提供无处不在的访问。它在一个通用网站上运行,用于连接多功能设备,实现无缝通信、数据访问和共享。通过无线介质进行通信需要巨大的安全功能来保护不同互连资源中的公共和私人数据。因此,在本文中,提出了一种通信感知自适应密钥管理(CAKM)来确保物联网通信中的两个级别的安全性。两级安全性包括使用证书授权和密钥管理促进的设备和消息。通过利用超椭圆曲线密码学 (HECC) 的优势,通信感知自适应密钥管理确保设备请求的消息身份验证。最初,设备请求根据其服务时间进行分类,并与证书的生存期相关联。该方法的计算时间低10.9%、30.2%和54.3%,安全级别高10.9%、30.2%和54.3%,消息成功率高10.9%、30.2%和54.3%,密钥协商时间低10.9% 、30.2% 和 54.3% 与现有的三种方法相比,例如基于双边泛化非齐次短整数解 (Bi-GISIS) 的物联网安全密钥管理 (Bi-GISIS-IoT)、基于超椭圆曲线的公钥密码系统物联网安全 (HCCPK-IoT) 和物联网安全中增强的基于对称密钥的身份验证 (ESKA-IoT)。最后,
更新日期:2022-07-22
中文翻译:
一种新颖的通信感知自适应密钥管理方法,用于确保物联网网络的安全
物联网 (IoT) 包含异构通信设备和无线技术,可使用最终用户设备提供无处不在的访问。它在一个通用网站上运行,用于连接多功能设备,实现无缝通信、数据访问和共享。通过无线介质进行通信需要巨大的安全功能来保护不同互连资源中的公共和私人数据。因此,在本文中,提出了一种通信感知自适应密钥管理(CAKM)来确保物联网通信中的两个级别的安全性。两级安全性包括使用证书授权和密钥管理促进的设备和消息。通过利用超椭圆曲线密码学 (HECC) 的优势,通信感知自适应密钥管理确保设备请求的消息身份验证。最初,设备请求根据其服务时间进行分类,并与证书的生存期相关联。该方法的计算时间低10.9%、30.2%和54.3%,安全级别高10.9%、30.2%和54.3%,消息成功率高10.9%、30.2%和54.3%,密钥协商时间低10.9% 、30.2% 和 54.3% 与现有的三种方法相比,例如基于双边泛化非齐次短整数解 (Bi-GISIS) 的物联网安全密钥管理 (Bi-GISIS-IoT)、基于超椭圆曲线的公钥密码系统物联网安全 (HCCPK-IoT) 和物联网安全中增强的基于对称密钥的身份验证 (ESKA-IoT)。最后,
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