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    • 31. 发明申请
    • IMAGE ANALYSIS SYSTEM
    • 图像分析系统
    • WO1983000972A1
    • 1983-03-17
    • PCT/AU1982000152
    • 1982-09-08
    • COMMONWEALTH OF AUSTRALIA
    • COMMONWEALTH OF AUSTRALIADOW, Robert, James, FrederickQUINN, James, DominicSILVA, Stanley, RobertWILLIAMS, David, WilliamWU, Kenneth, Kwan, Mow
    • H04N07/18
    • G06T7/00G01N2033/0081G01V5/0008G06K9/38G06K9/46G06K9/54
    • Image analysing method and system, and in particular method and system for analysing X-ray radioscopic images of the contents of an article of mail to detect the presence of Improvised Explosive Devices (IED's). The system comprises a CCTV camera to scan said image and provide signals indicative of the intensity of the image at any particular point, means to process said signals and provide an indication of when the signal makes a transition through a predetermined threshold level and also the duration of any signal whose threshold varies from the, or each, said predetermined level as a measure of the extent of dark or light areas on the image, and means automatically activated in response thereto for processing said signals to apply a pattern recognition technique and including a Transition Position Encoder, a High Speed RAM Buffer Circuit, a Direct Memory Access Circuit (DMA) all incorporated with a Single Board Computer (SBC).
    • 图像分析方法和系统,特别是用于分析邮件内容的X射线放射线图像以检测简易爆炸装置(IED)的存在的特别方法和系统。 该系统包括CCTV摄像机,用于扫描所述图像并提供指示图像在任何特定点处的强度的信号,用于处理所述信号的装置,以及提供何时信号通过预定阈值水平的转换以及持续时间 其阈值从作为所述预定水平或每个所述预定水平的阈值变化的任何信号作为图像上的暗区或亮区的范围的度量,以及响应于此而自动激活的装置,用于处理所述信号以应用模式识别技术,并且包括 转换位置编码器,高速RAM缓冲电路,直接存储器访问电路(DMA),全部与单板计算机(SBC)并入。
    • 32. 发明申请
    • AUTOMATIC STANDARDS INSPECTION
    • 自动标准检查
    • WO2013104365A1
    • 2013-07-18
    • PCT/DK2013/050006
    • 2013-01-09
    • UDVIKLINGSSELSKABET INNOSCAN K/S
    • NIELSEN, Gert
    • G01N21/93
    • G01N21/93B07C5/3404G01N21/90G01N35/00623G01N2001/2893G01N2033/0081
    • The invention relates to an inspection machine for inspecting containers such as vials, said inspection machine comprising a number of inspection stations for inspecting containers by container analysis routines and a system test arrangement in connection with the one or more inspection stations, the system test arrangement comprising a number of standard objects, where the inspection stations performs standard object analysis routines, which are different form the container analysis routines, to establish standard object-dependent inspection results. The present invention further relates to a method for testing the performance level of an inspection machine by performing standard object analysis routines on standard objects, a system test arrangement for use in connection with an inspection machine and comprising standard objects targeting specific sub-components of the inspection machine, and a set of standard objects of that kind.
    • 本发明涉及一种用于检查小瓶等容器的检查机,所述检查机包括多个用于通过容器分析程序检查容器的检查站和与一个或多个检查站相关的系统测试装置,所述系统测试装置包括 一些标准对象,其中检查站执行标准对象分析程序,这些程序与容器分析程序不同,以建立标准的对象依赖检查结果。 本发明还涉及一种用于通过对标准物体执行标准物体分析程序来测试检查机器的性能水平的方法,用于与检查机器结合使用的系统测试装置,并且包括针对特定子组件的标准物体 检验机,以及一套标准物品。
    • 34. 发明申请
    • VERFAHREN UND DETEKTOR ZUR BESTIMMUNG VON GASEN
    • 方法和检波器用于气体测定
    • WO2003027667A1
    • 2003-04-03
    • PCT/DE2002/003504
    • 2002-09-19
    • WMA AIRSENSE ANALYSENTECHNIK GMBHWALTE, AndreasMÜNCHMEYER, Wolf
    • WALTE, AndreasMÜNCHMEYER, Wolf
    • G01N33/00
    • G01N1/2226G01N1/2202G01N1/24G01N33/0029G01N33/0034G01N2001/2223G01N2001/2229G01N2033/0081
    • Es ist inzwischen von grosser Bedeutung, dass Lebensmittelcontainer oder Behälter vor ihrem Einsatz auf das Vorhandensein von Kontaminationen untersucht werden. Die bekannten Messungen sind ungenau und die Apparaturen dazu sehr teuer. Es ist daher ein neues Verfahren und ein entsprechender Detektor zur Bestimmung von Gasen vorgeschlagen, bei dem die Probenahme in einfacher Weise realisiert wird und die Bestimmung der Kontamination schnell durchgeführt wird, dabei sollen sowohl geringste Kontaminationen erkannt werden als auch selektiv genug unterschieden werden, um den Nachweis einzelner Verbindungen bei gleichzeitiger Anwesenheit anderer Verbindungen zu gewährleisten. Erreicht wird dies dadurch, dass unterschiedliche Sensortypen auf einem Sensorarray (12) verknüpft werden, die sowohl in festen Zeitintervallen als auch zusätzlich je nach Intensität der Sensorsignale gereinigt werden und das Sensorarraysystem (12) aus den eingehenden Messignalen trainierbar ist. Derartige Verfahren und die entsprechenden Detektoren werden zur Identifizierung von gasförmigen Gemischen in der Lebensmittelchemie zur Qualitätskontrolle eingesetzt.
    • 现在是非常重要的食物容器或容器进行检验污染的存在后使用。 已知的测量不准确,设备非常昂贵。 因此,它是一种新的方法以及用于确定提出了将采样以简单的方式实现,并且污染的确定迅速地进行气体的相应检测器,而被检测到两个轻微的污染都以及分化的选择性足以 以确保在其它化合物的同时存在单独的化合物的检测。 这在不同类型的传感器阵列(12)连接的传感器,这是纯化的,无论是在固定的时间间隔,此外根据传感器信号的强度和从传入的测量信号可以被训练所述传感器阵列系统(12)实现的,。 这样的方法和相应的检测器被用于在食品化学鉴定的气体混合物的质量控制。
    • 35. 发明申请
    • SHELF LIFE TESTING UNIT
    • SHELF生活测试单元
    • WO02033378A1
    • 2002-04-25
    • PCT/US2001/032205
    • 2001-10-16
    • G01M3/26G01L7/00G01L9/00G01M3/00G01N1/22G01N7/10G01N7/14G01N15/08G01N33/00
    • G01N15/0826G01N1/2226G01N7/10G01N7/14G01N15/0806G01N2001/2229G01N2033/0081
    • A testing apparatus (10) for testing the level of retained gas at elevated pressure in plastic containers (15) for carbonated beverages includes a manifold assembly (14a-14i) for engaging the mouth of a test set of the containers (15). The apparatus (10) additionally includes a gas supply (16) for supplying a desired quantity of a selected gas to each container (15), the gas preferably helium. The apparatus (10) further includes pressure measuring units for measuring the pressure in each container (15), and a data collection system (20) coupled to the pressure measuring units for periodically collecting pressure data along with ambient temperature data as a function of time. The collected data can be analyzed to determine shelf life of the containers (15).
    • 用于在碳酸饮料的塑料容器(15)中测试高压下的保留气体水平的测试装置(10)包括用于接合容器(15)的测试组的口的歧管组件(14a-14i)。 设备(10)还包括用于向每个容器(15)供应所需量的选定气体的气体供应源(16),气体优选为氦气。 装置(10)还包括用于测量每个容器(15)中的压力的​​压力测量单元和耦合到压力测量单元的数据收集系统(20),用于周期性地收集压力数据以及作为时间的函数的环境温度数据 。 可以分析收集的数据以确定容器(15)的保质期。
    • 37. 发明申请
    • LIGHT FLUX DETERMINATION OF PARTICLE CONTAMINATION
    • 颗粒污染的光通量测定
    • WO1995003541A1
    • 1995-02-02
    • PCT/US1994008260
    • 1994-07-22
    • KNAPP, Julius, Z.
    • G01N21/90
    • G01N21/9027G01N2033/0081
    • A method and device for the automated non-destructive single inspection of solutions in transparent containers (52) for particle contamination, in injectable pharmaceutical solutions, with commercially viable acceptance percentages, while maintaining security within guidelines based on skilled human inspection. The containers are fully illuminated with forward scatter lighting (6') with total light flux for detection of low contrast particles, with the size of the particles being evaluated by the maximum instantaneous increase of detector current as the particle moves through the detection zone. Simultaneously therewith, narrow detection volumes are back lighted (6) with collimated light flux for detectionof high contrast or dark particles, within the detection volume, by light extinction with a decrease of detector current from the normal non-particle illumination. The maximum pulsatile current decrease is used to determine the size of the particle. Separate ilumination elements provide the forward scatter light (6') and the back lighting (6), and separate, non-overlapping detector areas capture the separate increase (FOD 2) and decrease (FOD 1, FOD 3) of detector current. Either separate detectors with separate lenses are utilized for detection of the increase and decrease of detector current or mirrors are utilized to reflect the respective images through a single lens onto separated sections of a single detector element.
    • 一种在具有商业上可接受的百分比的可注射药物溶液中的用于颗粒污染的透明容器(52)中的溶液的自动非破坏性单次检查的方法和装置,同时在基于技术人员检查的指导原则中保持安全性。 容器被完全照射,具有用于检测低对比度颗粒的总光通量的前向散射照明(6'),随着颗粒移动通过检测区域,颗粒的尺寸由检测器电流的最大瞬时增加来评估。 与此同时,在通常的非粒子照射下检测器电流的减少,通过光消光,在检测体积内通过准直光通量来检测窄对比度或深色颗粒的窄检测体积(6)。 最大脉冲电流减小用于确定粒子的大小。 分离的照明元件提供前向散射光(6')和背光(6),并且分离的非重叠检测器区域捕获检测器电流的单独增加(FOD 2)和减少(FOD 1,FOD 3)。 使用具有单独透镜的单独的检测器用于检测检测器电流的增加和减少,或者反射镜用于通过单个透镜将各个图像反射到单个检测器元件的分离部分上。
    • 38. 发明申请
    • SYSTEM FOR THE DETECTION OF NOXIOUS CONTAMINANTS IN BEVERAGE AND POTABLE WATER CONTAINERS
    • 检测饮用水和饮用水容器中的有毒污染物的系统
    • WO1994012860A2
    • 1994-06-09
    • PCT/CA1993000517
    • 1993-12-03
    • PHOTOVAC INCORPORATED
    • PHOTOVAC INCORPORATEDLEVESON, Richard, C.LASLAVIC, John, D.BARKER, Nicholas, J.
    • G01N01/22
    • G01N21/9081G01N21/33G01N21/9018G01N21/94G01N35/025G01N2001/1445G01N2033/0081Y10T436/173845Y10T436/175383
    • A device for detecting contaminants in returned bottles, particularly in a high-speed bottle line, is disclosed. In the preferred embodiment, a sample chamber is rotated on a carousel unit between top and bottom bulkheads. The surfaces of the bulkheads facing the chamber are flat and substantially parallel, and the chamber has two open ends which face the two bulkheads, respectively. A blast of air is directed into the mouth of the bottle to be sampled, forcing the contents of the bottle through an aperture in the lower bulkhead and into the sample chamber. In the preferred embodiment, the analyzer contains a UV absorption analyzer and a photoionization detector. The carousel unit contains four sample chambers which rotate between a sampling station, the two detectors, and a purge station. The analyzer is controlled by a computer which issues a reject instruction to a bottle reject mechanism if the level of contaminants detected by either detector exceeds a predetermined threshold. In an alternative embodiment, the level of chemically-bound ammonium radicals is detected by analyzing the same sample twice with one or two photoionization detectors. An alkaline substance is added to the sample between the measurements. Since the combination of an alkaline substance and ammonium radicals will free ammonia gas, a substantially higher reading during the second analysis indicates the presence of ammonium radicals.
    • 公开了一种用于检测返回的瓶子中的污染物的装置,特别是在高速瓶子管线中的污染物。 在优选实施例中,样品室在顶部和底部舱壁之间的转盘单元上旋转。 面向腔室的隔壁的表面是平坦的并且基本上平行,并且腔室具有分别面对两个隔板的两个开口端。 空气吹入瓶子的口中进行取样,迫使瓶子的内容物通过下隔板的孔口进入样品室。 在优选实施例中,分析仪含有UV吸收分析仪和光电离检测器。 转盘单元包含四个样品室,其在采样站,两个检测器和吹扫站之间旋转。 如果由任一检测器检测到的污染物的水平超过预定阈值,则分析器由计算机控制,该计算机向拒收机构发出拒绝指令。 在替代实施方案中,通过用一个或两个光电离检测器分析相同的样品两次来检测化学结合的铵基的水平。 在测量之间向样品中加入碱性物质。 由于碱性物质和铵自由基的组合将游离氨气,所以在第二次分析期间显着更高的读数表明存在铵自由基。