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公开(公告)号:US09531497B2
公开(公告)日:2016-12-27
申请号:US14290545
申请日:2014-05-29
Applicant: Drexel University
Inventor: Boris Shishkin , Danh H. Nguyen , Cem Sahin , Kapil R. Dandekar , Nagarajan Kandasamy , David J. Dorsey
Abstract: A real-time capable, protocol-aware, reactive jammer using GNU Radio and the USRP N210 software-defined radio (SDR) platform detects in-flight packets of known wireless standards and reacts to jam them—within 80 ns of detecting the signal. A reactive jamming device is achieved using low-cost, readily available hardware. The real-time reactive jamming device includes a real-time signal detector that detects an event in received packets in the wireless network, a reactive jamming device that sends a triggering signal when the event is detected, and a jamming generator responsive to the triggering signal to generate a jamming signal that has a user-defined delay so as to enable jamming of specific locations in received packets in the wireless network. The effects of three types of jamming on WiFi (802.11g) and mobile WiMAX (802.16e) networks are demonstrated and jamming performances are quantified by measuring the network throughput using the iperf software tool.
Abstract translation: 使用GNU Radio和USRP N210软件定义无线电(SDR)平台的实时功能,协议感知,反应干扰器检测已知无线标准的飞行包中的数据,并在发现信号的80 ns内对其进行响应。 使用低成本,易于获得的硬件实现无功干扰装置。 实时无功干扰装置包括检测无线网络中接收到的分组中的事件的实时信号检测器,当检测到事件时发送触发信号的无功干扰装置,以及响应于触发信号的干扰发生器 以产生具有用户定义的延迟的干扰信号,以便能够阻止无线网络中接收的分组中的特定位置。 演示了三种干扰在WiFi(802.11g)和移动WiMAX(802.16e)网络上的影响,并通过使用iperf软件工具测量网络吞吐量来量化干扰性能。
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2.发明申请公开(公告)号:US20160344510A1
公开(公告)日:2016-11-24
申请号:US14290545
申请日:2014-05-29
Applicant: Drexel University
Inventor: Boris Shishkin , Danh H. Nguyen , Cem Sahin , Kapil R. Dandekar , Nagarajan Kandasamy , David J. Dorsey
IPC: H04K3/00
Abstract: A real-time capable, protocol-aware, reactive jammer using GNU Radio and the USRP N210 software-defined radio (SDR) platform detects in-flight packets of known wireless standards and reacts to jam them—within 80 ns of detecting the signal. A reactive jamming device is achieved using low-cost, readily available hardware. The real-time reactive jamming device includes a real-time signal detector that detects an event in received packets in the wireless network, a reactive jamming device that sends a triggering signal when the event is detected, and a jamming generator responsive to the triggering signal to generate a jamming signal that has a user-defined delay so as to enable jamming of specific locations in received packets in the wireless network. The effects of three types of jamming on WiFi (802.11g) and mobile WiMAX (802.16e) networks are demonstrated and jamming performances are quantified by measuring the network throughput using the iperf software tool.
Abstract translation: 使用GNU Radio和USRP N210软件定义无线电(SDR)平台的实时功能,协议感知,反应干扰器检测已知无线标准的飞行包中的数据,并在发现信号的80 ns内对其进行响应。 使用低成本,易于获得的硬件实现无功干扰装置。 实时无功干扰装置包括检测无线网络中接收到的分组中的事件的实时信号检测器,当检测到事件时发送触发信号的无功干扰装置,以及响应于触发信号的干扰发生器 以产生具有用户定义的延迟的干扰信号,以便能够阻止无线网络中接收的分组中的特定位置。 演示了三种干扰在WiFi(802.11g)和移动WiMAX(802.16e)网络上的影响,并通过使用iperf软件工具测量网络吞吐量来量化干扰性能。
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