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    • 2. 发明申请
    • LASER THREAT WARNING SYSTEM AND METHOD
    • 激光威胁系统和方法
    • WO2012093399A4
    • 2012-08-30
    • PCT/IL2012050002
    • 2012-01-03
    • ELBIT SYSTEMS LTDDAVID OFERYANIV ELADHERSHMAN AKIVASHUKRUN AVI
    • DAVID OFERYANIV ELADHERSHMAN AKIVASHUKRUN AVI
    • G01S7/48G01S3/783
    • G01S7/4804G01S3/783
    • Laser threat warning system for detecting laser radiation transmitted by a threat source. The system filters noise and irrelevant detections using filtering mechanisms, while identifying and characterizing an incoming laser-based threat using threat identification mechanisms. The filtering mechanisms include an adjustable threshold mechanism, a correlation filtering mechanism, and a friendly fire avoidance mechanism. The threat identification mechanisms include a temporal mapping mechanism and a first arrival mechanism. The adjustable threshold mechanism filters noise signals by dynamically adjusting a noise threshold level based on detected ambient light conditions. The correlation filtering mechanism filters noise signals based on correlation criteria of the received radiation timing. The friendly fire avoidance mechanism filters radiation transmitted by a non-threat source. The temporal mapping mechanism identifies and characterizes the threat based on pulse mappings of the radiation. The first arrival mechanism determines the threat direction based on where the radiation arrived first among multiple laser detectors.
    • 用于检测威胁源传输的激光辐射的激光威胁警告系统。 该系统使用过滤机制来过滤噪声和不相关的检测,同时使用威胁识别机制识别和表征传入的基于激光的威胁。 过滤机制包括可调阈值机制,相关过滤机制和友好的消防机制。 威胁识别机制包括时间映射机制和第一到达机制。 可调阈值机制通过基于检测到的环境光条件动态调整噪声阈值水平来对噪声信号进行滤波。 相关滤波机制根据接收到的辐射定时的相关标准对噪声信号进行滤波。 友好的防火机制可以过滤由非威胁源传播的辐射。 时间映射机制基于辐射的脉冲映射来识别和表征威胁。 首先到达机制基于辐射在多个激光检测器中首先到达的位置确定威胁方向。
    • 4. 发明申请
    • HIGH POWER LASER EYE SAFETY PROTECTION
    • 高功率激光眼睛安全保护
    • WO2008133736A2
    • 2008-11-06
    • PCT/US2007/085859
    • 2007-11-29
    • CUBIC CORPORATIONRIPINGILL, Allen, E, Jr.D'SOUZA, ClarkCOUNTER, Jim, Milton
    • RIPINGILL, Allen, E, Jr.D'SOUZA, ClarkCOUNTER, Jim, Milton
    • G01S7/495G01S7/4804
    • A laser safety device and method of protecting against harmful levels of radiation. The device includes a housing with first and second apertures. A photodetector generates a first signal corresponding to a level of radiation entering the housing through the first aperture. A control circuit receives the first signal and generates a drive signal based upon the level of the radiation. A reflector array which can include micro-electro-mechanical mirrors receives the drive signal and diverts a first part of the radiation away from an incident path extending from the first aperture to the second aperture. The reflector array allows a second part of the radiation to continue along the incident path at a safe level towards the second aperture. Optionally, the reflector array blocks the incident path so that substantially no radiation passes to the second aperture if unsafe levels are detected.
    • 激光安全装置和防止有害辐射水平的方法。 该装置包括具有第一和第二孔的外壳。 光电检测器产生对应于通过第一孔进入壳体的辐射水平的第一信号。 控制电路接收第一信号并且基于辐射的电平产生驱动信号。 可以包括微机电反射镜的反射器阵列接收驱动信号并将辐射的第一部分转移离开从第一孔延伸到第二孔的入射路径。 反射器阵列允许辐射的第二部分沿着入射路径在朝向第二孔的安全水平上继续。 可选地,反射器阵列阻挡入射路径,使得如果检测到不安全水平,则基本上不会辐射到第二孔。
    • 6. 发明申请
    • INTEGRATED, RECONFIGURABLE MAN-PORTABLE MODULAR SYSTEM
    • 一体化,可重新配置的便携式模块化系统
    • WO1997027527A1
    • 1997-07-31
    • PCT/US1997000561
    • 1997-01-20
    • HE HOLDINGS, INC., doing business as HUGHES ELECTRONICS
    • HE HOLDINGS, INC., doing business as HUGHES ELECTRONICSGROSS, Michael, D.CARLSON, DennisBILLIMORIA, Rohinton, P.TURLEY, Douglas, G.
    • G06F01/16
    • G06F1/163G01S7/4804
    • There is described an integrated reconfigurable man-portable communication system, adapted particularly for use in military or law enforcement tactical situations, including a modular compact computer with mission oriented hardware and software which provides the focal point for integration of various peripheral systems. The reconfigurable man-portable system provides a ballistic helmet with an integrated audio headset assembly. The helmet also includes a modular heads-up displays assembly for providing remote viewing via a helmet mounted laser detection system, thermal weapons site, weapon mounted remote video system, and laser range finder/digital compass assembly. The heads-up display assembly and the audio headset assembly provides the user with tactical information such as; 360 degree laser detection from helmet mounted detectors, target location for direct and indirect target engagement from the weapon mounted laser range finder/digital compass assembly, and navigational positioning from a global positioning system and individual radio module integrated within a modular load carrying device. The integration and modularity of the man-portable system provides a flexible, mission oriented system capable of providing the user with enhanced awareness and communications ability.
    • 描述了一种集成的可重新配置的便携式通信系统,其特别适用于军事或执法战术情况,包括具有任务导向的硬件和软件的模块化紧凑型计算机,其提供了用于集成各种外围系统的焦点。 可重构的便携式系统提供了具有集成音频耳机组件的防弹头盔。 该头盔还包括一个模块化的单元显示组件,用于通过头盔安装的激光检测系统,热武器现场,武器安装的远程视频系统和激光测距仪/数字罗盘组件提供远程观察。 平视显示组件和音频耳机组件向用户提供诸如以下的战术信息: 来自头盔安装式检测器的360度激光检测器,用于从武器安装的激光测距仪/数字罗盘组件进行直接和间接目标接合的目标位置,以及集成在模块化承载装置内的全球定位系统和各个无线电模块的导航定位。 便携式系统的集成和模块化提供了灵活的,面向任务的系统,能够为用户提供增强的意识和通信能力。
    • 7. 发明申请
    • SENSOR ZUR ERKENNUNG UND LOKALISIERUNG VON LASERSTRAHLUNGSQUELLEN
    • 传感器检测和隔离激光辐射源
    • WO2014075652A1
    • 2014-05-22
    • PCT/DE2013/000656
    • 2013-11-06
    • EADS DEUTSCHLAND GMBH
    • GÜHNE, Tobias
    • G01S3/784G01S7/48G01J3/28
    • G01J3/0229G01J1/0407G01J1/0411G01J1/4257G01S3/784G01S7/4804
    • Die Erfindung betrifft einen Sensor zur Erkennung und Lokalisierung von Laserstrahlungsquellen mit - einem im Bildfeld einer abbildenden Optik (20) angeordneten strahlungsempfindlichen Detektors (30), - einer mit dem Detektor (30) verbundenen elektronischen Bildverarbeitungseinrichtung (40), und - einem im Strahlengang angeordneten optischen Beugungselement (10). Erfindungsgemäß sind die Beugungseigenschaften des optischen Beugungselements (10) derart ausgebildet, dass einfallendes Laserlicht in unterschiedlichen Wellenlängenbändern Beugungsmuster unterschiedlicher Form erzeugt, und die elektronische Signalauswertungseinrichtung (40) derart eingerichtet ist, dass sie die unterschiedlichen Formen der Beugungsmuster erkennt und auswertet.
    • 本发明涉及一种用于与激光辐射源的检测和定位的传感器 - 布置成一个在成像光学部件的像场(20)的辐射敏感探测器(30), - 具有连接到所述电子图像处理装置(40)的检测器(30)一个,以及 - 一个布置在光束路径 衍射光学元件(10)。 根据本发明,衍射光学元件(10)的衍射特性被设计不同形状的产生,使得入射激光衍射图案在不同的波长带,并且电子信号评估机构(40)被布置成使得它识别的衍射图案和分析的不同的形状。
    • 8. 发明申请
    • PERSONAL LASER PROTECTION DEVICE
    • 个人激光保护装置
    • WO2014056543A1
    • 2014-04-17
    • PCT/EP2012/070258
    • 2012-10-12
    • FRAUNHOFER GESELLSCHAFT ZUR FÖRDERUNG DER ANGEW. FORSCHUNG E.V.
    • RITT, GunnarEBERLE, BerndANSTETT, GregorEBERT, ReinhardBEYERER, Jürgen
    • A61F9/02F41H13/00
    • A61F9/022A61F9/023F41H1/00G01S7/4804
    • The invention relates to a Personal laser protection device (1) comprising : Fixing means (2) being adapted to be worn on a user' s head (25) and further being adapted to carry at least any of at least one protective filter (3) and/or at least one laser beam entrance (40) and/or at least one alarm system (6), wherein the laser beam entrance (40) is coupled to at least one laser detection device (4) being adapted to detect incident laser radiation (45), or the protective filter (3) is adapted to be arranged between a user' s eye (250) and a source of laser radiation (450) and is switchable from at least one first state to at least one second state, wherein incident radiation (45) is attenuated at least partly on passing said protective filter in the second state, or the alarm system (6) is adapted to emit an individually perceivable alarm.
    • 本发明涉及个人激光保护装置(1),包括:固定装置(2),其适于佩戴在用户的头部(25)上,并且还适于承载至少一个保护过滤器(3)中的至少一个 )和/或至少一个激光束入口(40)和/或至少一个报警系统(6),其中所述激光束入口(40)耦合到至少一个激光检测装置(4),适于检测事件 激光辐射(45)或保护性过滤器(3)适于布置在用户的眼睛(250)和激光辐射源(450)之间,并且可从至少一个第一状态切换到至少一秒 状态,其中入射辐射(45)至少部分地在所述第二状态下通过所述保护滤光器时被衰减,或者所述报警系统(6)适于发射单独可察觉的报警。
    • 9. 发明申请
    • MULTIFUNCTION LIGHT TRANSCEIVER DEVICE
    • 多功能光收发器装置
    • WO2013109307A1
    • 2013-07-25
    • PCT/US2012/044189
    • 2012-06-26
    • DEERE & COMPANYANDERSON, Noel, Wayne
    • ANDERSON, Noel, Wayne
    • G01S7/48G01S17/02G01S17/93B60Q1/04
    • G01S17/023B60Q1/085B60Q2300/45F21S41/14F21S41/143F21S41/16F21S41/663G01S7/4804G01S17/936G08G1/0112G08G1/165
    • An exemplary multifunction light transceiver device includes a plurality of light sources. At least one luminescent member is configured to emit visible light responsive to radiation incident on the luminescent member. The luminescent member is positioned in a path of light from at least one light source. A controller selectively controls the light sources to achieve multiple functions. The controller controls at least one of the light sources to emit first light to irradiate the luminescent member to illuminate an area near the device. The controller controls at least one of the light sources to emit second light that communicates information from the device. The controller also controls at least one of the light sources to emit third light from the device toward an object in a path of the third light. A detector associated with the controller detects any portion of the third light that is reflected toward the detector. The controller uses any detected third light for making a determination regarding an object from which the detected third light reflected.
    • 示例性的多功能光收发器装置包括多个光源。 至少一个发光构件被配置为响应入射在发光构件上的辐射而发射可见光。 发光构件位于来自至少一个光源的光的路径中。 控制器选择性地控制光源以实现多种功能。 控制器控制至少一个光源发射第一光以照射发光构件以照亮装置附近的区域。 控制器控制至少一个光源以发射从设备传送信息的第二个光。 所述控制器还控制所述光源中的至少一个从所述装置朝向所述第三光的路径中的物体发射第三光。 与控制器相关联的检测器检测朝向检测器反射的第三光的任何部分。 控制器使用任何检测到的第三光线来确定所检测到的第三光线所反射的物体。
    • 10. 发明申请
    • PULSED-LASER BEAM DETECTOR WITH IMPROVED SUN AND TEMPERATURE COMPENSATION
    • 具有改进的温度补偿的脉冲激光束检测器
    • WO2009133414A1
    • 2009-11-05
    • PCT/HR2008/000015
    • 2008-05-02
    • BOROSAK, Marko
    • BOROSAK, Marko
    • G01S7/497
    • G01S7/4804G01S7/4861G01S7/4868G01S7/497
    • The invention discloses the pulsed-laser beam detector with the improved sun and temperature compensation. The detector consists of plurality of the photo detectors 101, the ambient temperature sensor 105, the sun exposure filter and mirroring circuit 103, microcontroller unit 104 that comprises pre- stored values in the database and the algorithm - decision logic, the time base circuit 106 that feed microcontroller 104, the amplifier 102 with the adjustable gain, the threshold setting circuit 107, the peak detector circuit 108, the comparator circuit 109, and the noise cancellation circuit 110. The core of invention is the amplifier 102 with the gain adjustable in real time to predetermined values, and where said gain depends of the measured values from the detectors 101, and temperature sensor 105, that are pre-processed if necessary, and compared with the values already stored in the microcontroller unit 104 and subjected to the program logic stored in said microcontroller 104 that finally decide about the gain of the said amplifier 102. The invention prevents false triggering of the device and provides the gain of the signal that is close to the maximum possible gain and optimally separated from the noise induced by the optical and temperature sources.
    • 本发明公开了具有改善的太阳和温度补偿的脉冲激光束检测器。 检测器由多个光电检测器101,环境温度传感器105,太阳曝光滤波器和镜像电路103组成,微控制器单元104包括数据库中的预先存储的值和算法 - 判定逻辑,时基电路106 该馈送微控制器104,具有可调增益的放大器102,阈值设置电路107,峰值检测器电路108,比较器电路109和噪声消除电路110.本发明的核心是放大器102,其增益可以在 实时到预定值,并且其中所述增益取决于来自检测器101和温度传感器105的测量值,如果需要,其被预处理,并且与已经存储在微控制器单元104中并受到程序的值进行比较 存储在所述微控制器104中的逻辑最终决定了所述放大器102的增益。本发明防止了dev的错误触发 并提供接近最大可能增益的信号的增益,并与光学和温度源引起的噪声最佳分离。