物联网无线传感器网络的中方散列贝塞尔安全路由

R. Mohanraj
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引用次数: 1

摘要

传感器的迅速普及以及无线传感器网络(WSN)应用和服务需求的不断增长,为在WSN基础设施上路由数据包创造了无与伦比的需求。在物联网(IoT)时代,大量的传感设备随着时间的推移在广泛的领域收集大量的传感器数据。对于通过WSN路由的物联网设备,传感器节点通过公共通道将机密数据传输到网关节点。在这样的环境中,安全路由仍然是一个必须解决的严重问题。为了解决这个问题,在这项工作中,设计了一种使用基于中间方哈希的贝塞尔认证(MSH-BA)的鲁棒方法来保护支持物联网的wsn的路由。首先,提出了一种中方散列数据收集算法,通过生成唯一密钥来最小化能量消耗。为了最大限度地减少物联网传感器网络的运行时间,在用户和网关节点之间进行离散注册。最后,采用递进距离的Bezier认证方法对相互认证的正确性进行证明,从而保证了报文的发送率。对该鲁棒认证方法进行了综合分析,并与同类认证方法进行了比较,结果表明该方法具有较早的鲁棒性和有效性。
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Mid Square Hash Bezier Secured Routing for IoT Enabled Wireless Sensor Networks
The swift uptake of sensors and the increasing demand of Wireless Sensor Network (WSN) applications and services create unmatched appeals for routing data packets on WSN infrastructure. In the era of Internet of Things (IoT), an immense number of sensing devices collect numerous sensor data over time for an extensive span of fields. For IoT-enabled devices routing through WSN, sensor nodes transmit confidential data to the gateway nodes via public channels. In such an environment, secured routing remains a serious issue that has to be addressed. To address this issue, in this work, a robust method using Mid Square Hash-based Bezier Authentication (MSH-BA) is designed to secure the routing for IoT-enabled WSNs. First, a Mid Square Hashing Data Collection algorithm is proposed to minimize the energy consumption through unique key generation. To minimize the running time of IoT sensor network, discrete registration is performed between user and gateway nodes. Finally, the proof of correctness of mutual authentication is performed using the Bezier Authentication method via progressive distance, therefore ensuring packet delivery ratio. The robust authentication method is analyzed comprehensively and compared against the similar authentication methods and the results showed that it is efficient and robust than earlier methods.
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