Lightweight and Physically Secure Anonymous Mutual Authentication Protocol for Real-Time Data Access in Industrial Wireless Sensor Networks

Gope Prosanta; Das Ashok Kumar; Kumar Neeraj; Cheng Yongqiang

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Lightweight and Physically Secure Anonymous Mutual Authentication Protocol for Real-Time Data Access in Industrial Wireless Sensor Networks

机译：用于工业无线传感器网络中实时数据访问的轻巧且物理安全的匿名相互身份验证协议

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Industrial wireless sensor network (IWSN) is an emerging class of a generalized WSN having constraints of energy consumption, coverage, connectivity, and security. However, security and privacy is one of the major challenges in IWSN as the nodes are connected to Internet and usually located in an unattended environment with minimum human interventions. In IWSN, there is a fundamental requirement for a user to access the real-time information directly from the designated sensor nodes. This task demands to have a user authentication protocol. To satisfy this requirement, this paper proposes a lightweight and privacy-preserving mutual user authentication protocol in which only the user with a trusted device has the right to access the IWSN. Therefore, in the proposed scheme, we considered the physical layer security of the sensor nodes. We show that the proposed scheme ensures security even if a sensor node is captured by an adversary. The proposed protocol uses the lightweight cryptographic primitives, such as one way cryptographic hash function, physically unclonable function, and bitwise exclusive operations. Security and performance analysis shows that the proposed scheme is secure, and is efficient for the resource-constrained sensing devices in IWSN.

机译：工业无线传感器网络（IWSN）是通用WSN的新兴类别，它具有能耗，覆盖范围，连接性和安全性方面的限制。但是，由于节点连接到Internet，并且通常位于无人值守的环境中，而人工干预最少，因此安全性和隐私性是IWSN的主要挑战之一。在IWSN中，基本要求是用户直接从指定的传感器节点访问实时信息。此任务要求具有用户身份验证协议。为满足此要求，本文提出了一种轻量级且可保护隐私的双向用户身份验证协议，其中只有具有受信任设备的用户才有权访问IWSN。因此，在提出的方案中，我们考虑了传感器节点的物理层安全性。我们表明，即使传感器节点被对手捕获，所提出的方案仍可确保安全性。所提出的协议使用了轻量级的加密原语，例如单向加密哈希函数，物理上不可克隆的函数以及按位互斥操作。安全性和性能分析表明，该方案是安全的，对于IWSN中资源受限的传感设备是有效的。

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来源
《IEEE transactions on industrial informatics》 |2019年第9期|4957-4968|共12页
作者
Gope Prosanta; Das Ashok Kumar; Kumar Neeraj; Cheng Yongqiang;
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作者单位

Univ Hull Dept Comp Sci & Technol Kingston Upon Hull HU6 7RX N Humberside England;

Int Inst Informat Technol Ctr Secur Theory & Algorithm Res Hyderabad 500032 India;

Thapar Univ Dept Comp Sci & Engn Patiala 147004 Punjab India;

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正文语种 eng
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Industrial wireless sensor network (IWSN); mutual authentication; key agreement; physically unclonable function (PUF); security;

机译：工业无线传感器网络（IWSN）;相互认证;关键协议;物理上不可克隆的功能（PUF）;安全;

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1. A Realistic Lightweight Anonymous Authentication Protocol for Securing Real-Time Application Data Access in Wireless Sensor Networks [J] . Prosanta Gope, Tzonelih Hwang IEEE Transactions on Industrial Electronics . 2016,第11期

机译：一种切实可行的轻型匿名身份验证协议，可确保无线传感器网络中的实时应用程序数据访问安全
2. 3P-SAKE: Privacy-preserving and physically secured authenticated key establishment protocol for wireless industrial networks [J] . Masud Mehedi, Alazab Mamoun, Choudhary Karanjeet, Computer Communications . 2021,第Jula期

机译：3P-Sake：无线工业网络保护保留和物理安全的经过身份验证的密钥建立协议
3. A lightweight anonymous two-factor authentication protocol for wireless sensor networks in Internet of Vehicles [J] . Sadri Mohammad Javad, Rajabzadeh Asaar Maryam International journal of communication systems . 2020,第14期

机译：用于车辆互联网中的无线传感器网络的轻量级匿名双因子认证协议
4. On the security of a realistic lightweight anonymous authentication protocol for securing real-time application data access in wireless sensor networks [C] . Ling Xiong, Daiyuan Peng, Tu Peng, IEEE International Conference on Computer and Communications . 2017

机译：关于用于保护无线传感器网络中实时应用程序数据访问的现实的轻量级匿名身份验证协议的安全性
5. Lightweight mutual authentication, owner transfer, and secure search protocols for RFID systems. [D] . Kulseng, Lars Skaar. 2009

机译：轻量级的相互认证，所有者转移和用于RFID系统的安全搜索协议。
6. WSN-SLAP: Secure and Lightweight Mutual Authentication Protocol for Wireless Sensor Networks [O] . Deok Kyu Kwon, Sung Jin Yu, Joon Young Lee, 2021

机译：WSN-SLAP：无线传感器网络安全和轻量级相互认证协议
7. Lightweight and Physically Secure Anonymous Mutual Authentication Protocol for Real-Time Data Access in Industrial Wireless Sensor Networks [O] . Prosanta Gope, Ashok Kumar Das, Neeraj Kumar, 2019

机译：轻量级和物理安全的匿名相互认证协议，用于工业无线传感器网络中的实时数据访问

Lightweight and Physically Secure Anonymous Mutual Authentication Protocol for Real-Time Data Access in Industrial Wireless Sensor Networks

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