基于物联网设备的ACE DTLS框架的实现与评估

Jacob Johansson, Ali Hassan Sodhro, A. Gurtov
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引用次数: 1

摘要

物联网(IoT)设备正变得越来越先进和强大,其应用潜力正在迅速增加。本文在三个方面做出了重要贡献。首先,在本地网络中资源受限的物联网设备上,修改、扩展并实现了众所周知的在受限环境下的安全驱动授权-数据报传输层安全(ACE-DTLS)协议框架。其次,采用功耗、PLR、时延、整体网络性能、资源服务器等性能指标对ACE-DTLS框架与Baseline方法进行比较。第三,采用无线电占空比(RDC)优化受限物联网设备在CPU处理过程中的能量效率。实验环境通过三个测试,即COAP, COAP+令牌和COAP+DTLS,通过将路由器置于三个主要距离(1m, 6m和12m)来检查。观察到COAP的PLR、功率损耗和延迟比COAP+token和COAP+DTLS低,而COAP+DTLS在6m和12m距离上的延迟、功率损耗和PLR相对较高。
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Implementation and Evaluation of the ACE DTLS Framework over Internet of Things Devices
Internet of Things (IoT)-devices are becoming more advanced and powerful than ever, and the application potential is increasing rapidly. This paper significantly contributes in three ways. First, it modifies, extends and implements the well-known security-driven authorization in a constrained environment-datagram transport layer security (ACE-DTLS) protocol’s framework on resource-constrained IoT devices in a local network. Second, ACE-DTLS framework is compared with the Baseline method by adopting performance indicators for example, power dissipation, PLR, latency, overall network performance and a resource server. Third, radio duty cycles (RDC) are adopted for optimizing the energy efficiency of the constrained IoT devices during CPU processing. Experimental environment was examined with three tests i.e., COAP, COAP+token, and COAP+DTLS by putting router at three main distances (1m, 6m and 12m). It is observed that COAP has less PLR, power drain and latency than COAP+token and COAP+DTLS, while COAp+DTLS shows relatively high latency, power drain and PLR at 6m and 12m distances.
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