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    • 2. 发明授权
    • Method for detecting organic vapors and aerosols
    • 有机蒸汽和气溶胶的检测方法
    • US5874314A
    • 1999-02-23
    • US791623
    • 1997-01-31
    • Markus LoepfeDieter WieserPeter Ryser
    • Markus LoepfeDieter WieserPeter Ryser
    • G01N33/00G01N27/62
    • G01N33/0047Y10T436/17Y10T436/173076Y10T436/173845
    • In a technique for detecting organic vapors and aerosols, e.g. of amines, hydrazines and nitrogen-containing compounds produced in combustion, molecules condense at a surface of a conductive device. By heating the conductive device in pulsed fashion, e.g. by resistance heating, condensed molecules are thermally ionized and emitted from the conductive device. Emitted ions are collected by a collector electrode, and the resulting ionic current pulse is amplified by a transimpedance circuit. The heat pulse lasts until the ionic current pulse has subsided, by which time the conductive device has become free of residual substances. As a result, the conductive device remains uncontaminated and has a long service life. The time-averaged power consumption of the technique is less than 2 mW. For resistance heating, a meander heater element can be disposed on a silicon nitride membrane across an etched opening in a silicon chip. A separate conductive surface layer can be included in the conductive device, separated from the heater element by an insulating layer.
    • 在用于检测有机蒸气和气溶胶的技术中,例如, 的胺,肼和燃烧中产生的含氮化合物,分子在导电装置的表面冷凝。 通过以脉冲方式加热导电装置,例如, 通过电阻加热,冷凝分子被热离子化并从导电装置发射。 发射的离子由集电极收集,并且所得到的离子电流脉冲由跨阻电路放大。 热脉冲持续到离子电流脉冲已经消退,此时导电装置已经没有残留物质。 结果,导电装置保持未被污染并且具有长的使用寿命。 该技术的时间平均功耗小于2mW。 对于电阻加热,可以在硅芯片上的蚀刻开口上的氮化硅膜上设置曲折加热元件。 可以在导电装置中包含单独的导电表面层,通过绝缘层与加热器元件分离。
    • 5. 发明申请
    • EVALUATION OF THE SECURITY SITUATION IN A BUILDING BY MEANS OF A RADIO TOMOGRAPHIC LOCATION AND DETECTION METHOD AND BY MEANS OF RFID READING DEVICES
    • 通过无线电地理位置和检测方法以及RFID读取设备的方式评估建筑物的安全状况
    • US20140375454A1
    • 2014-12-25
    • US14342424
    • 2011-09-30
    • Hilmar KonradDieter Wieser
    • Hilmar KonradDieter Wieser
    • G08B13/24G06K7/10
    • H04N5/2252G06K7/10366G08B13/24G08B13/248G08B13/2491H04N5/33H04N7/18
    • A method and a system evaluate a security situation in a building. The building has accommodation areas with access authorization for authorized persons. A count of the persons present in the accommodation areas is determined in that, in a radio network which contains a plurality of radio stations arranged spatially distributed in the ceiling, wall or floor, the influencing of the radio field of the radio stations between one another by persons physically present there is evaluated, by a radio tomographic location and detection method. A current count of identifiers which are read by RFID reading devices of RFID transponders is determined, the identifiers being carried by authorized persons. The RFID reading devices are arranged there spatially distributed in the ceiling, wall or floor. Based on the respective counts of personal identifiers and the determined person count, an indicator for evaluating the current security situation in the building is determined.
    • 方法和系统评估建筑物的安全状况。 该建筑物具有通过授权人员进入的住宿区域。 确定存在于住宿区域中的人员的数量在于,在包含空间分布在天花板,墙壁或楼层中的多个无线电台的无线电网络中,确定无线电台的无线电场的影响 通过放射线断层摄影位置和检测方法对物理存在的人进行评估。 确定RFID应答器的RFID读取装置读取的标识符的当前计数,标识符由授权人携带。 RFID读取装置布置在空间上分布在天花板,墙壁或地板上。 根据个人识别码和确定的人数的相应计数,确定用于评估建筑物当前安全状况的指标。
    • 7. 发明授权
    • Device for testing the operation of smoke detectors
    • 用于测试烟雾探测器操作的装置
    • US5523744A
    • 1996-06-04
    • US318662
    • 1994-10-11
    • Dieter Wieser
    • Dieter Wieser
    • G01N21/53G08B17/10G08B29/14
    • G08B29/145G08B17/113
    • A device (7) for testing the operation of smoke detectors (3) has a housing (1) which is open at one end and can be placed over the smoke detector (3). A test light source (5) in the housing provides light pulses which radiate into the inside of the smoke detector (3) under test. The test device also has a test light detector (4) that receives light coming from the smoke-indicating light source (15) of the smoke detector (3) and controls the test light source (5) in relation to the received light. The light pulse of the test light source (5) is received by the smoke-indicating light detector (14) of the smoke detector (3). By checking if the smoke detector (3) goes into the alarm state, it can be ascertained whether it is in an operational condition.
    • PCT No.PCT / CH94 / 00010 Sec。 371日期:1994年10月11日 102(e)日期1994年10月11日PCT 1994年1月21日PCT PCT。 WO94 / 18653 PCT出版物 一种用于测试烟雾探测器(3)的操作的装置(7)具有在一端敞开并可放置在烟雾探测器(3)上方的壳体(1)。 壳体中的测试光源(5)提供照射到被测试的烟雾探测器(3)内部的光脉冲。 测试装置还具有接收来自烟雾探测器(3)的烟雾指示光源(15)的光并且相对于所接收的光控制测试光源(5)的测试光检测器(4)。 测试光源(5)的光脉冲由烟雾探测器(3)的烟雾指示光检测器(14)接收。 通过检查烟雾探测器(3)是否进入报警状态,可以确定其是否处于工作状态。
    • 9. 发明申请
    • SYSTEMS AND METHODS TO CLASSIFY MOVING AIRPLANES IN AIRPORTS
    • 在机场分类移动飞机的系统和方法
    • US20140146998A1
    • 2014-05-29
    • US13687828
    • 2012-11-28
    • Dieter Wieser
    • Dieter Wieser
    • G06K9/00
    • G06K9/00771G06K9/3241
    • A sequence of video images is generated of a pavement area of an airport which contains one or more objects. A processor accesses a background model of the pavement area and determines in a current image a single cluster of foreground pixels that is not part of the background model and assigns a first value to each foreground pixel in the cluster to create a foreground mask. The background model is updated by learning new conditions. A convex hull is generated from the foreground mask. A ratio is determined from pixels captured by the complex hull and pixels in the foreground mask. A ratio higher than a threshold value indicates an object not being an airplane and an alert is displayed on a computer display. Images may be thermal images. A surveillance system based on the calculated ratio is disclosed.
    • 生成包含一个或多个物体的机场路面区域的视频图像序列。 处理器访问路面区域的背景模型,并且在当前图像中确定不属于背景模型的单个前景像素群,并且为群集中的每个前景像素分配第一值以创建前景掩码。 通过学习新的条件更新背景模型。 从前景掩码生成凸包。 一个比值由复合体船体捕获的像素和前景蒙板中的像素确定。 高于阈值的比率表示不是飞机的物体,并且在计算机显示器上显示警报。 图像可能是热图像。 披露了基于计算比例的监控系统。