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An Enhanced Lightweight Dynamic Pseudonym Identity Based Authentication and Key Agreement Scheme Using Wireless Sensor Networks for Agriculture Monitoring

机译：使用无线传感器网络的用于农业监测的增强型轻量级动态假名身份认证和密钥协商方案

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摘要

Agriculture plays an important role for many countries. It provides raw materials for food and provides large employment opportunities for people in the country, especially for countries with a dense population. To enhance agriculture productivity, modern technology such as wireless sensor networks (WSNs) can be utilized to help in monitoring important parameters in thw agricultural field such as temperature, light, soil moisture, etc. During the monitoring process, if security compromises happen, such as interception or modification of the parameters, it may lead to false decisions and bring damage to agriculture productivity. Therefore, it is very important to develop secure authentication and key agreement for the system. Recently, Ali et al. proposed an authentication and key agreement scheme using WSNs for agriculture monitoring. However, it fails to provide user untraceability, user anonymity, and session key security; it suffers from sensor node impersonation attack and perfect forward secrecy attack; and even worse has denial of service as a service. This study discusses these limitations and proposes a new secure and more efficient authentication and key agreement scheme for agriculture monitoring using WSNs. The proposed scheme utilizes dynamic pseudonym identity to guarantee user privacy and eliminates redundant computations to enhance efficiency.

机译：农业对许多国家都起着重要作用。它为食品提供原料，并为该国人民特别是人口稠密的国家提供大量就业机会。为了提高农业生产率，可以利用诸如无线传感器网络（WSN）之类的现代技术来帮助监视农业领域中的重要参数，例如温度，光照，土壤湿度等。在监视过程中，如果发生安全隐患，例如由于截取或修改参数，可能会导致错误的决策并损害农业生产率。因此，开发系统的安全认证和密钥协议非常重要。最近，Ali等人。提出了一种使用WSN进行农业监控的认证和密钥协商方案。但是，它无法提供用户不可追溯性，用户匿名性和会话密钥安全性；它遭受传感器节点模拟攻击和完美的前向保密攻击。更糟糕的是拒绝服务即服务。这项研究讨论了这些局限性，并提出了一种新的安全，高效的使用WSN进行农业监控的身份验证和密钥协商方案。所提出的方案利用动态假名身份来确保用户隐私，并消除了冗余计算以提高效率。

著录项

期刊名称 Sensors (Basel Switzerland)
作者
Meriske Chen; Tian-Fu Lee; Jiann-I Pan;
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作者单位

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年(卷),期 2019(19),5
年度 2019
页码 1146
总页数 24
原文格式 PDF
正文语种
中图分类
关键词
agriculture monitoring agriculture WSN key agreement dynamic identity agriculture decision support system lightweight authentication;

机译：农业监测;农业无线传感器网络;关键协议;动态身份;农业决策支持系统;轻量级认证;

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专利

1. A secure user authentication and key-agreement scheme using wireless sensor networks for agriculture monitoring [J] . Rifaqat Ali, Arup Kumar Pal, Saru Kumari, Future generation computer systems . 2018,第JULa期

机译：使用无线传感器网络进行农业监测的安全用户身份验证和密钥协商方案
2. A lightweight dynamic pseudonym identity based authentication and key agreement protocol without verification tables for multi-server architecture [J] . Kaiping Xue, Peilin Hong, Changsha Ma Journal of computer and system sciences . 2014,第1期

机译：轻量级的基于动态假名身份的身份验证和密钥协商协议，无需多服务器架构的验证表
3. A secure temporal-credential-based mutual authentication and key agreement scheme with pseudo identity for wireless sensor networks [J] . He Debiao, Kumar Neeraj, Chilamkurti Naveen Information Sciences: An International Journal . 2015,第Null期

机译：无线传感器网络的基于安全的基于时间凭证的相互认证和带有伪身份的密钥协商方案
4. Lightweight Mutual Authentication and Key Agreement in IoT Networks and Wireless Sensor Networks Proposal of Authentication and Key Agreement in IoT Network and Sensor Network Using Poor Wireless Communication of Less Than 1 Kbps [C] . Hyunki Kim, Seunghwan Yun, Jaehoon Lee, International Conference on Platform Technology and Service . 2018

机译：IoT网络和无线传感器网络中的轻量级相互身份验证和密钥协议提议使用低于1 Kbps的较差无线通信的IoT网络和传感器网络中的身份验证和密钥协议
5. Combating dos attacks in wireless networks using lightweight key management schemes. [D] . Dong, Qi. 2010

机译：使用轻量级密钥管理方案在无线网络中对抗dos攻击。
6. A Lightweight Three-Factor Authentication and Key Agreement Scheme in Wireless Sensor Networks for Smart Homes [O] . Sooyeon Shin, Taekyoung Kwon 2019

机译：智能家居无线传感器网络中的轻量级三要素认证和密钥协商方案
7. An Enhanced Lightweight Dynamic Pseudonym Identity Based Authentication and Key Agreement Scheme Using Wireless Sensor Networks for Agriculture Monitoring [O] . Meriske Chen, Tian-Fu Lee, Jiann-I Pan 2019

机译：基于增强的轻量级动态假名标识基于基于的基于的教室和密钥协议方案，用于农业监测

An Enhanced Lightweight Dynamic Pseudonym Identity Based Authentication and Key Agreement Scheme Using Wireless Sensor Networks for Agriculture Monitoring

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