IEEE 802.15.4 GTS机制及omnet++ / MiXiM + NETA中GTS攻击仿真模型

J. Chem. Inf. Comput. Sci. Pub Date : 2018-01-27 DOI:10.5539/cis.v11n1p78

Y. M. Amin, A. T. Abdel-Hamid

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引用次数: 3

摘要

IEEE 802.15.4标准定义了低速率无线个人区域网络(lr - wpan)的物理层和MAC层规范。随着许多具有实时传输、低延迟和/或特定带宽要求的时间关键型应用程序的激增，保证时隙(GTS)越来越多地被用于支持信标的wpan内节点的可靠无争用数据传输。为了评估802.15.4 GTS管理方案的性能，本文介绍了一种新的基于omnet++ / MiXiM的GTS仿真模型。我们的GTS模型考虑了2.4 GHz频段内的星形拓扑wwan，并且完全符合IEEE 802.15.4 - 2006标准。为了深入研究针对802.15.4 GTS机制的不同攻击行为和影响，本文还介绍了一种新的omnet++ GTS攻击仿真模型。我们的GTS攻击模型是为omnet++ / NETA开发的，并与我们的GTS模型集成在一起，为GTS机制和所有已知的针对GTS的攻击提供了一个单一的omnet++仿真模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A Simulation Model of IEEE 802.15.4 GTS Mechanism and GTS Attacks in OMNeT++ / MiXiM + NETA

The IEEE 802.15.4 standard defines the PHY and MAC layer specifications for Low-Rate Wireless Personal Area Networks (LR-WPANs). With the proliferation of many time-critical applications with real-time delivery, low latency, and/or specific bandwidth requirements, Guaranteed Time Slots (GTS) are increasingly being used for reliable contention-free data transmission by nodes within beacon-enabled WPANs. To evaluate the performance of the 802.15.4 GTS management scheme, this paper introduces a new GTS simulation model for OMNeT++ / MiXiM. Our GTS model considers star-topology WPANs within the 2.4 GHz frequency band, and is in full conformance with the IEEE 802.15.4 – 2006 standard. To enable thorough investigation of the behaviors and impacts of different attacks against the 802.15.4 GTS mechanism, a new GTS attacks simulation model for OMNeT++ is also introduced in this paper. Our GTS attacks model is developed for OMNeT++ / NETA, and is integrated with our GTS model to provide a single inclusive OMNeT++ simulation model for both the GTS mechanism and all known-to-date attacks against it.

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