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    • 2. 发明申请
    • SECURE RFID TAG OR SENSOR WITH SELF-DESTRUCTION MECHANISM UPON TAMPERING
    • 安全的RFID标签或传感器与自毁机制在夯实
    • US20150339568A1
    • 2015-11-26
    • US14714204
    • 2015-05-15
    • Faranak NekoogarFarid DowlaRichard TwogoodScott Lefton
    • Faranak NekoogarFarid DowlaRichard TwogoodScott Lefton
    • G06K19/077H05K5/02H05K1/02H05K5/00
    • G06K19/07798G06K19/07381H05K1/0275H05K5/0208H05K5/0221H05K2201/10098Y10T225/371
    • A circuit board anti-tamper mechanism comprises a circuit board having a frangible portion, a trigger having a trigger spring, a trigger arming mechanism actuated by the trigger wherein the trigger arming mechanism is initially non-actuated, a force producing mechanism, a latch providing mechanical communication between the trigger arming mechanism and the force producing mechanism, wherein the latch initially retains the force producing mechanism in a refracted position. Arming pressure applied to the trigger sufficient to overcome the trigger spring force will actuate the trigger arming mechanism, causing the anti-tamper mechanism to be armed. Subsequent tampering with the anti-tamper mechanism results in a decrease of pressure on the trigger below the trigger spring force, thereby causing the trigger arming mechanism to actuate the latch, thereby releasing the force producing mechanism to apply force to the frangible portion of the circuit board, thereby breaking the circuit board.
    • 电路板防篡改机构包括具有易碎部分的电路板,具有触发弹簧的触发器,由触发器致动的触发器布防机构,其中触发器布防机构最初不被致动,力产生机构,闩锁提供 触发器布置机构和力产生机构之间的机械连通,其中闩锁最初将力产生机构保持在折射位置。 施加到触发器上的足以克服触发弹簧力的施加压力将致动触发器布防机构,导致防篡改机构布防。 随后篡改防篡改机构导致触发器下方的压力降低到触发弹簧力以下,从而使触发器布防机构致动闩锁,由此释放力产生机构以向电路的易碎部分施加力 板,从而打破电路板。
    • 4. 发明申请
    • SECURE PASSIVE RFID TAG WITH SEAL
    • 安全无缝RFID标签
    • US20150310715A1
    • 2015-10-29
    • US14695991
    • 2015-04-24
    • Faranak NekoogarMatthew ReynoldsScott LeftonFarid DowlaRichard Twogood
    • Faranak NekoogarMatthew ReynoldsScott LeftonFarid DowlaRichard Twogood
    • G08B13/24
    • G08B13/06
    • A secure passive RFID tag system comprises at least one base station and at least one passive RFID tag. The tag includes a fiber optic cable with the cable ends sealed within the tag and the middle portion forming an external loop. The loop may be secured to at least portions of an object. The tag transmits and receives an optical signal through the fiber optic cable, and the cable is configured to be damaged or broken in response to removal or tampering attempts, wherein the optical signal is significantly altered if the cable is damaged or broken. The tag transmits the optical signal in response to receiving a radio signal from the base station and compares the transmitted optical signal to the received optical signal. If the transmitted optical signal and the received optical signal are identical, the tag transmits an affirmative radio signal to the base station.
    • 安全的无源RFID标签系统包括至少一个基站和至少一个无源RFID标签。 标签包括光纤电缆,其电缆端部密封在标签内,中间部分形成外部环路。 环可以固定到物体的至少一部分。 标签通过光纤电缆发送和接收光信号,并且电缆被配置为响应于去除或篡改尝试而损坏或断开,其中如果电缆损坏或断开,则光信号被显着改变。 响应于从基站接收到无线电信号,标签发送光信号,并将所发送的光信号与接收到的光信号进行比较。 如果发送的光信号和接收到的光信号相同,则标签将肯定无线电信号发送到基站。
    • 6. 发明授权
    • Secure RFID tag or sensor with self-destruction mechanism upon tampering
    • 安全的RFID标签或传感器具有自毁机制,篡改
    • US09530090B2
    • 2016-12-27
    • US14714204
    • 2015-05-15
    • Faranak NekoogarFarid DowlaRichard TwogoodScott Lefton
    • Faranak NekoogarFarid DowlaRichard TwogoodScott Lefton
    • G06K19/06G06K19/077H05K5/02H05K1/02G06K19/073
    • G06K19/07798G06K19/07381H05K1/0275H05K5/0208H05K5/0221H05K2201/10098Y10T225/371
    • A circuit board anti-tamper mechanism comprises a circuit board having a frangible portion, a trigger having a trigger spring, a trigger arming mechanism actuated by the trigger wherein the trigger arming mechanism is initially non-actuated, a force producing mechanism, a latch providing mechanical communication between the trigger arming mechanism and the force producing mechanism, wherein the latch initially retains the force producing mechanism in a refracted position. Arming pressure applied to the trigger sufficient to overcome the trigger spring force will actuate the trigger arming mechanism, causing the anti-tamper mechanism to be armed. Subsequent tampering with the anti-tamper mechanism results in a decrease of pressure on the trigger below the trigger spring force, thereby causing the trigger arming mechanism to actuate the latch, thereby releasing the force producing mechanism to apply force to the frangible portion of the circuit board, thereby breaking the circuit board.
    • 电路板防篡改机构包括具有易碎部分的电路板,具有触发弹簧的触发器,由触发器致动的触发器布防机构,其中触发器布防机构最初不被致动,力产生机构,闩锁提供 触发器布置机构和力产生机构之间的机械连通,其中闩锁最初将力产生机构保持在折射位置。 施加到触发器上的足以克服触发弹簧力的施加压力将致动触发器布防机构,导致防篡改机构布防。 随后篡改防篡改机构导致触发器下方的压力降低到触发弹簧力以下,从而使触发器布防机构致动闩锁,由此释放力产生机构以向电路的易碎部分施加力 板,从而打破电路板。
    • 8. 发明申请
    • RADAR NETWORK COMMUNICATION THROUGH SENSING OF FREQUENCY HOPPING
    • 通过频率感知的雷达网络通信
    • US20120200448A1
    • 2012-08-09
    • US13024105
    • 2011-02-09
    • Farid DowlaFaranak Nekoogar
    • Farid DowlaFaranak Nekoogar
    • G01S13/00
    • G01S13/87G01S7/006G01S7/021G01S13/24
    • In one embodiment, a radar communication system includes a plurality of radars having a communication range and being capable of operating at a sensing frequency and a reporting frequency, wherein the reporting frequency is different than the sensing frequency, each radar is adapted for operating at the sensing frequency until an event is detected, each radar in the plurality of radars has an identification/location frequency for reporting information different from the sensing frequency, a first radar of the radars which senses the event sends a reporting frequency corresponding to its identification/location frequency when the event is detected, and all other radars in the plurality of radars switch their reporting frequencies to match the, reporting frequency of the first radar upon detecting the reporting frequency switch of a radar within the communication range. In another embodiment, a method is presented for communicating information in a radar system.
    • 在一个实施例中,雷达通信系统包括具有通信范围并且能够以感测频率和报告频率操作的多个雷达,其中报告频率不同于感测频率,每个雷达适于在 感测频率直到检测到事件,多个雷达中的每个雷达具有用于报告与感测频率不同的信息的识别/位置频率,感测事件的雷达的第一雷达发送对应于其识别/位置的报告频率 检测事件时的频率,并且多个雷达中的所有其他雷达在检测到在通信范围内的雷达的报告频率切换时,切换其报告频率以匹配第一雷达的报告频率。 在另一个实施例中,呈现了用于在雷达系统中传送信息的方法。
    • 10. 发明授权
    • Radar network communication through sensing of frequency hopping
    • 雷达网络通信通过跳频检测
    • US08451164B2
    • 2013-05-28
    • US13024105
    • 2011-02-09
    • Farid DowlaFaranak Nekoogar
    • Farid DowlaFaranak Nekoogar
    • G01S13/00
    • G01S13/87G01S7/006G01S7/021G01S13/24
    • In one embodiment, a radar communication system includes a plurality of radars having a communication range and being capable of operating at a sensing frequency and a reporting frequency, wherein the reporting frequency is different than the sensing frequency, each radar is adapted for operating at the sensing frequency until an event is detected, each radar in the plurality of radars has an identification/location frequency for reporting information different from the sensing frequency, a first radar of the radars which senses the event sends a reporting frequency corresponding to its identification/location frequency when the event is detected, and all other radars in the plurality of radars switch their reporting frequencies to match the reporting frequency of the first radar upon detecting the reporting frequency switch of a radar within the communication range. In another embodiment, a method is presented for communicating information in a radar system.
    • 在一个实施例中,雷达通信系统包括具有通信范围并且能够以感测频率和报告频率操作的多个雷达,其中报告频率不同于感测频率,每个雷达适于在 感测频率直到检测到事件,多个雷达中的每个雷达具有用于报告与感测频率不同的信息的识别/位置频率,感测事件的雷达的第一雷达发送对应于其识别/位置的报告频率 当检测到事件时,多个雷达中的所有其他雷达在通信范围内检测到雷达的报告频率切换时,切换其报告频率以匹配第一雷达的报告频率。 在另一个实施例中,呈现了用于在雷达系统中传送信息的方法。