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    • 4. 发明授权
    • Automotive occupant sensor system and method of operation by sensor
fusion
    • 汽车乘员传感器系统及传感器融合操作方法
    • US5482314A
    • 1996-01-09
    • US227531
    • 1994-04-12
    • Anthony P. CorradoStephen W. DeckerPaul K. Benbow
    • Anthony P. CorradoStephen W. DeckerPaul K. Benbow
    • B60R21/16B60N2/00B60R21/01B60R21/015G01S7/526G01S7/539G01S15/02G01S15/04G01S15/52G01S15/88G06K9/00G06K9/62G06K9/68B60R21/32
    • B60R21/01534B60N2/002B60R21/01532B60R21/01536B60R21/0154G01S15/025G01S15/04G01S15/523G06K9/00362G06K9/6293G01S15/88G01S7/526G01S7/539
    • A system for sensing the presence, position and type of an occupant in a passenger seat of a vehicle, as well as for sensing the presence of a rear-facing child seat therein, for use in enabling or disabling a related airbag activator. The sensor system employs sensor-fusion, a process of combining information provided by two or more sensors, each of which "sees" the world in a unique sense. In a preferred embodiment, occupancy sensor samples two detectable properties, a first being a thermal signature and associated motion, and a second is acoustically measured distance and the associated motion. Infrared sensor inputs and an ultrasonic sensor input are combined in a microprocessor circuit by means of a sensor fusion algorithm to produce an output signal to the air bag controller. The output signal results from preselected confidence weighing for feature parameters generated by the two sensors and upon a fusion process which ultimately makes a decision which is extremely reliable. The sensor fusion matrix processes the sensor outputs in a decision making operation which includes weighing inputs to guarantee reliability. All sensor outputs, along with calibration data, initial conditions and historical reference data are considered in the process of making a decision of whether or not to deploy the passenger-side air bag in a collision.
    • 一种用于感测车辆的乘客座椅中的乘客的存在,位置和类型以及用于感测其中面向后面的儿童座椅的存在的系统,用于启用或禁用相关的气囊启动器。 传感器系统采用传感器融合,将由两个或更多个传感器提供的信息相结合的过程,每个传感器以独特的意义“看到”世界。 在优选实施例中,占用传感器采样两个可检测的属性,第一个是热特征和相关运动,第二个是声学测量的距离和相关的运动。 红外传感器输入和超声波传感器输入通过传感器融合算法组合在微处理器电路中,以产生到气囊控制器的输出信号。 输出信号是由两个传感器产生的特征参数的预选置信度产生的,并且融合过程最终作出非常可靠的决策。 传感器融合矩阵在决策操作中处理传感器输出,包括称重输入以确保可靠性。 在确定是否在碰撞中部署乘客侧安全气囊的过程中,将考虑所有传感器输出以及校准数据,初始条件和历史参考数据。
    • 5. 发明授权
    • Keep out zone incursion fast sensing mode for airbag deployment systems
    • 保持安全气囊展开系统的区域入侵快速感测模式
    • US06249729B1
    • 2001-06-19
    • US08957730
    • 1997-10-24
    • Anthony P. CorradoRalf SeipStephen W. Decker
    • Anthony P. CorradoRalf SeipStephen W. Decker
    • B60R2132
    • B60R21/01534B60R21/0134B60R21/01536B60R2021/01311B60R2021/01313
    • An automotive occupancy sensing system and method for use in conjunction with airbag deployment systems, by which occupant nature, location and motion parameters within the vehicle interior are determined by ultrasound (US) and/or infared sensors. (IS). Criteria for airbag disablement or airbag modified/partial deployment are used to determine whether appropriate disablement or modified/partial deployment control signals are transmitted to the vehicle airbag deployment system. More particularly the system establishes a Keep Out Zone (KOZ) within the vehicle interior relative to the dashboard or instrument panel and determines actual or imminent incursions by occupants into the KOZ to produce a Keep Out Zone Incursion (KOZI) signal, and determines crash-imminent signal (CIS) criteria derived from one or more sensors within the vehicle. Both the KOZI and the CIS may be used to increase the rate of US pinging as well as to determine airbag disablement/modified deployment criteria.
    • 用于与安全气囊展开系统结合使用的汽车占用感测系统和方法,通过该安全气囊展开系统,通过超声波(US)和/或信号传感器确定车辆内部的乘客性质,位置和运动参数。 (IS)。 用于安全气囊禁用或安全气囊修改/部分部署的标准用于确定适当的禁用或修改/部分部署控制信号是否被传输到车辆安全气囊展开系统。 更具体地说,系统相对于仪表板或仪表板在车辆内部建立了保持区(KOZ),并且确定乘客进入KOZ的实际或即将的入侵以产生保持区域移动(KOZI)信号,并且确定碰撞 - 来自车辆内的一个或多个传感器的迫在眉睫的信号(CIS)标准。 KOZI和CIS都可以用来提高美国的平均飞行率,以及确定安全气囊的禁用/修改的部署准则。
    • 6. 发明申请
    • RFID TAG POWER CONSERVATION SYSTEM AND METHOD
    • RFID标签功率保存系统和方法
    • US20080218351A1
    • 2008-09-11
    • US12045553
    • 2008-03-10
    • Anthony P. CorradoRex T. Logan
    • Anthony P. CorradoRex T. Logan
    • G08B13/14
    • G06K19/0723G06K19/0705
    • Active multi-modal RFID tags, illuminator/tag/reader systems, circuit architecture and operational algorithms for battery power conservation that extends tag battery life from a typical 6 months to >5 years. The inventive system is particularly useful in asset and person tracking/inventory systems where power conservation is critical. The tag is configured with a micro-processor operational instruction set algorithm, modifiable on the fly via RF or IR, to synchronize a periodic tag awaken/sense envelope that overlaps the illuminator trigger pulse cycle and put the tag into deep, power conservation sleep for N periods of illuminator cycles. When the tag sees an illuminator signal with a different ID, or no illuminator signal at all, it transmits that anomaly via RF to a reader. This means the object or person with which the tag is associated has been moved out of the original illuminator field of view, permitting near real time investigation and tracking.
    • 主动多模态RFID标签,照明器/标签/读卡器系统,用于电池节能的电路架构和操作算法,将电池寿命从典型的6个月延长至5年。 本发明的系统对于节能至关重要的资产和人员跟踪/库存系统特别有用。 该标签配置有微处理器操作指令集算法,可以通过RF或IR在飞行中进行修改,以同步与照明器触发脉冲周期重叠的周期性标签唤醒/感测包络,并将标签置于深度,省电睡眠中 照明器周期的N个周期。 当标签看到具有不同ID的照明器信号或完全没有照明器信号时,它通过RF将该异常通过RF发送到读取器。 这意味着与标签相关联的对象或人已被移出原始照明器视野,允许近实时调查和跟踪。
    • 7. 发明授权
    • Fluid explosive initiator
    • 液体爆炸物引发剂
    • US3956993A
    • 1976-05-18
    • US522155
    • 1974-11-08
    • Anthony P. Corrado
    • Anthony P. Corrado
    • F42C15/29F42C5/00
    • F42C15/29
    • The setback force of a gun launch environment is used to help arm a projele fuze by shearing a pin which holds a slidable nozzle in a non-operative position. The sheared pin permits the nozzle to move into an operative position adjacent to a heat producing resonance tube. A second arming function is performed when the velocity of the launched projectile causes air to push a spring biased out-of-line detonator into alignment with the heat producing resonance tube. Ram air which is forced into the resonance tube by the high speed of the projectile creates shock waves which generate heat which ignite the detonator.
    • 枪弹发射环境的挫折力被用于通过剪切一个将可滑动喷嘴保持在非操作位置的销来帮助装备射弹引信。 剪切的销允许喷嘴移动到邻近发热共振管的操作位置。 当所发射的弹丸的速度导致空气将弹簧偏压的离线雷管推向与发热共振管对准时,执行第二布防功能。 通过弹丸高速被迫进入共振管的拉姆空气产生产生引燃雷管的热量的冲击波。
    • 8. 发明授权
    • Multi-modal active RFID tag with biometric sensors, systems and methods of ITV tracking
    • 具有生物识别传感器的多模态有源RFID标签,ITV跟踪的系统和方法
    • US07982601B2
    • 2011-07-19
    • US11938477
    • 2007-11-12
    • Anthony P. CorradoRex T. Logan
    • Anthony P. CorradoRex T. Logan
    • G08B1/08
    • G06K19/0728G06K7/10079G06K19/0723G06K19/07345G06K19/145
    • RFID tags, methods and systems for total asset management, in-transit visibility and bio-metric verification and authorization. The system comprises an active, multi-modal, bi-directional RFID tag having a primary communication mode RF transceiver and a secondary mode IR/US transceiver. The tag includes sensors, such as bio-metric, and memory containing user bio-metric data. A reader and illuminator(s), preferably IR and/or US, are communicatively coupled with the tag and adapted to provide command and control signals to the tag and receive data/information from it. The user's bio-metric data is read by the sensor, compared to the data base and verification communicated to an access or point of sale device. The tag looks for illuminators and reports to the reader the IDs of those it sees. The detection history permits tracking and locating tagged objects or persons, such as theme park guests. If no illuminator signal is seen, the tag sends a special signal.
    • 用于总资产管理的RFID标签,方法和系统,在线可见性和生物测量验证和授权。 该系统包括具有主要通信模式RF收发器和次级IR / US收发器的主动多模式双向RFID标签。 该标签包括诸如生物测量的传感器和包含用户生物量度数据的存储器。 阅读器和照明器(优选IR和/或US)通信地与标签耦合,并且适于向标签提供命令和控制信号并从其接收数据/信息。 与数据库相比,传感器读取用户的生物量度数据,并将其传递给访问或销售点设备。 标签寻找照明器并向读者报告它们看到的ID。 检测历史允许跟踪和查找标签对象或人物,如主题公园客人。 如果没有看到照明器信号,则标签发送特殊信号。
    • 10. 发明授权
    • RFID tag power conservation system and method
    • RFID标签功率节省系统及方法
    • US08054160B2
    • 2011-11-08
    • US12045553
    • 2008-03-10
    • Anthony P. CorradoRex T. Logan
    • Anthony P. CorradoRex T. Logan
    • H04Q5/22
    • G06K19/0723G06K19/0705
    • Active multi-modal RFID tags, illuminator/tag/reader systems, circuit architecture and opera-tional algorithms for battery power conservation that extends tag battery life from a typical 6 months to >5 years. The inventive system is particularly useful in asset and person tracking/inventory systems where power conservation is critical. The tag is configured with a micro-processor operational instruction set algorithm, modifiable on the fly via RF or IR, to synchro-nize a periodic tag awaken/sense envelope that overlaps the illuminator trigger pulse cycle and put the tag into deep, power conservation sleep for N periods of illuminator cycles. When the tag sees an illuminator signal with a different ID, or no illuminator signal at all, it transmits that anomaly via RF to a reader. This means the object or person with which the tag is associated has been moved out of the original illuminator field of view, permitting near real time investigation and tracking.
    • 主动多模式RFID标签,照明器/标签/读卡器系统,电路架构和电池功率节省的操作算法,可将标签电池寿命从典型的6个月延长至5年。 本发明的系统对于节能至关重要的资产和人员跟踪/库存系统特别有用。 该标签配置有微处理器操作指令集算法,可以通过RF或IR在飞行中修改,以同步周期性标签唤醒/感测包络,重叠照明器触发脉冲周期,并将标签置于深度,省电 睡眠N个照明器周期。 当标签看到具有不同ID的照明器信号或完全没有照明器信号时,它通过RF将该异常通过RF发送到读取器。 这意味着与标签相关联的对象或人已被移出原始照明器视野,允许近实时调查和跟踪。