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    PROCESSING SYNTHETIC APERTURE RADAR IMAGES FOR SHIP DETECTION
    3.
    发明申请
    PROCESSING SYNTHETIC APERTURE RADAR IMAGES FOR SHIP DETECTION 审中-公开
    处理用于船舶检测的合成孔径雷达图像

    公开(公告)号:US20170016987A1

    公开(公告)日:2017-01-19

    申请号:US14801976

    申请日:2015-07-17

    申请人: HER MAJESTY THE QUEEN IN RIGHT OF CANADA, AS REPRESENTED BY THE MINISTER OF NATIONAL DEFENCE

    发明人: Christoph H. GIERULL Ishuwa C. SIKANETA

    IPC分类号: G01S13/90 G06T7/40 G06T7/00

    CPC分类号: G06T7/40 G01S7/414 G01S13/90 G06T7/11 G06T7/41 G06T2207/10044 G06T2207/20021

    摘要: Systems and methods relating to SAR image processing and object detection within a SAR image. A sea clutter model in which the texture random variable is drawn from a finite and discrete set of values is used in the processing of SAR derived images. SAR images are divided into sub-images, each sub-image being processed in turn. A statistical test is applied to each sub-image to determine whether it contains pixels representing only non-clutter information. The statistical test is based on the sea-clutter model, parameters of which are derived and adapted from each sub-image. The model is designed such that it will not permit more than a pre-determined number of false alarms. Pixels in each sub-image with information other than clutter are clustered, according to proximity, into object detections. Detections from all sub-images are combined to provide global object detection and to group clusters that may have split across sub-image boundaries.

    摘要翻译: SAR图像处理与物体检测相关的系统和方法。 在SAR导出图像的处理中使用海杂波模型,其中纹理随机变量从有限和离散值集合中绘制。 SAR图像被分成子图像,每个子图像依次被处理。 对每个子图像应用统计测试来确定它是否包含仅表示非杂波信息的像素。 统计测试基于海杂波模型,其参数是从每个子图像导出和改编的。 该模型的设计使得它不会允许超过预定数量的虚假警报。 每个子图像中除了杂波之外的信息的像素根据邻近被聚类成对象检测。 来自所有子图像的检测被组合以提供全局对象检测,并且对可能跨子图像边界分割的群组进行分组。

    Sensor node
    5.
    发明授权
    Sensor node 有权
    传感器节点

    公开(公告)号:US09113044B2

    公开(公告)日:2015-08-18

    申请号:US13677894

    申请日:2012-11-15

    申请人: Her Majesty the Queen in Right of Canada, as Represented by the Minister of National Defence

    发明人: Benoit Ricard

    IPC分类号: H04N5/18 H04N7/18 G08B13/19

    CPC分类号: H04N7/18 G01J1/0271 G01J1/4228 G01J5/0022 G01J5/026 G01J5/04 G01J5/0846 G08B13/19

    摘要: Systems, methods, and devices relating to a field programmable unattended surveillance, low-power sensor node which uses a passive infrared (PIR) based motion detector to trigger a linear array of photodetectors and advanced processing for target detection and classification. The sensor node is equipped with an infrared beacon that is activated once a potential target is detected. The activated infrared beacon can then be seen by an operator using a night vision device.

    摘要翻译: 与现场可编程无人值守监视,低功率传感器节点相关的系统,方法和设备,其使用基于被动红外(PIR)的运动检测器来触发光电检测器的线性阵列和用于目标检测和分类的高级处理。 传感器节点配有一个红外信标,一旦检测到潜在的目标,它就被激活。 然后可以由使用夜视装置的操作者看到激活的红外信标。

    METHODS FOR IN-SCENE ATMOSPHERIC COMPENSATION BY ENDMEMBER MATCHING
    6.
    发明申请
    METHODS FOR IN-SCENE ATMOSPHERIC COMPENSATION BY ENDMEMBER MATCHING 有权
    通过终端匹配进行景观大气补偿的方法

    公开(公告)号:US20150161768A1

    公开(公告)日:2015-06-11

    申请号:US14103235

    申请日:2013-12-11

    申请人: Her Majesty the Queen in Right of Canada, as represented by the Minister of National Defence

    发明人: Jean-Pierre ARDOUIN Vincent ROSS

    IPC分类号: G06T5/00 G06K9/46 G06K9/62

    CPC分类号: G06K9/46 G06K9/0063 G06K2009/4657 G06T5/007 G06T2207/10036 G06T2207/30188 G06T2207/30192

    摘要: Methods are provided for automatically performing atmospheric compensation of a multi or hyper spectral image. One method comprises transforming at least two endmembers extracted from an image into at-ground reflectance. The transformation may be approximate and/or only in certain spectral bands in order to reduce processing time. A matching component is then located in a spectral library for each of the at least two extracted endmembers. Gain and offset values are then calculated using the at least two matched extracted endmember and spectral library component pairs. At least part of the image is then compensated using the calculated gain and offset values. Another method uses at least one endmember extracted from the image and a black level. Methods for atmospheric compensation using water vapor content of pixels are also provided. In addition, methods for shadow correction of hyper and multi spectral images are provided.

    摘要翻译: 提供了用于自动执行多光谱图像或超光谱图像的大气补偿的方法。 一种方法包括将从图像中提取的至少两个端点成为地面反射率。 转换可以是近似的和/或仅在某些光谱带中以减少处理时间。 然后将匹配组件定位在所述至少两个提取的终端成员中的每一个的光谱库中。 然后使用至少两个匹配的提取的最终成员和光谱库组件对来计算增益和偏移值。 然后使用计算的增益和偏移值来补偿图像的至少一部分。 另一种方法使用从图像提取的至少一个终端成员和黑色级别。 还提供了使用像素水汽含量的大气补偿方法。 此外,还提供了用于超和多光谱图像的阴影校正的方法。

    SOLID ELECTROCHEMICAL SUPERCAPACITOR
    7.
    发明申请
    SOLID ELECTROCHEMICAL SUPERCAPACITOR 有权
    固体电化学超临界

    公开(公告)号:US20150009605A1

    公开(公告)日:2015-01-08

    申请号:US13935867

    申请日:2013-07-05

    申请人: Her Majesty the Queen in Right of Canada, as represented by the Minister of National Defence

    发明人: Jean Dumas Daniel Belanger Tarik Bordjiba

    IPC分类号: H01G11/36 H01G11/86

    CPC分类号: H01G11/36 H01G11/26 H01G11/46 H01G11/86 Y02E60/13 Y10T156/10

    摘要: A process for fabricating an electrochemical supercapacitor is disclosed herein. The process comprises depositing a carbon nanotube layer onto a first substrate; depositing a layer of metal oxide material onto the substrate forming a first electrode; depositing an electrolytic material onto the electrode; and joining the electrode to a first face of a solid electrolyte membrane such that the electrolytic material is disposed between the electrode and the electrolytic membrane. The carbon nanotubes, the metal oxide and the electrolytic material comprise distinct layers. An electrochemical supercapacitor fabricated by the above-referenced process is also disclosed.

    摘要翻译: 本文公开了一种制造电化学超级电容器的方法。 该方法包括在第一衬底上沉积碳纳米管层; 在形成第一电极的基板上沉积金属氧化物层; 在电极上沉积电解质; 并将电极连接到固体电解质膜的第一面上,使得电解质材料设置在电极和电解质膜之间。 碳纳米管,金属氧化物和电解材料包括不同的层。 还公开了通过上述方法制造的电化学超级电容器。

    Camouflage material for the temperate environment
    8.
    发明申请
    Camouflage material for the temperate environment 有权
    迷彩材料为温带环境

    公开(公告)号:US20040166293A1

    公开(公告)日:2004-08-26

    申请号:US10368741

    申请日:2003-02-20

    申请人: Her Majesty the Queen in Right of Canada as Represented by the Minister of National Defence

    发明人: Svend Clausen Gert Hvedstrup Jensen Kaj Torben Winther

    IPC分类号: B32B003/00

    CPC分类号: D06P1/004 F41H3/00 Y10S2/90 Y10S428/913 Y10S428/919 Y10T428/24802

    摘要: In the present invention, there is provided a camouflage material having a camouflage pattern applied thereto and comprising a granitic aspect made of intermixed colored grains exhibiting the colors: light green having a dominant wavelength of 566.70 nm; a luminance factor of 13.10% and a saturation factor of 44.70%; brown having a dominant wavelength of 583.0 nm; a luminance factor of 9.30%, and a saturation factor of 31.60%; average green having a dominant wavelength of 569.36 nm; a luminance factor of 5.24%, and a saturation factor of 38.50%; and black having a dominant wavelength of 582.34 nm; a luminance factor of 2.68%, and a saturation factor of 4.01%. The granitic aspect is composed of about 21% colored grains exhibiting the color light green; about 6% colored grains exhibiting the color brown; about 48% colored grains exhibiting the color average green, and about 25% colored grains exhibiting the color black.

    摘要翻译: 在本发明中,提供了一种具有伪装图案的迷彩材料,其中包含由混合的着色颗粒构成的花岗岩形状,其呈现出主要波长为566.70nm的浅绿色; 亮度因子为13.10%,饱和因数为44.70%。 褐色具有583.0nm的主波长; 亮度因子为9.30%,饱和因子为31.60%; 主要波长为569.36nm的平均绿色; 亮度因子为5.24%,饱和因子为38.50%; 和主要波长为582.34nm的黑色; 亮度因子为2.68%,饱和因子为4.01%。 花岗岩方面由约21%的呈现浅绿色的彩色颗粒组成; 大约6%的颜色呈棕色; 约48%的呈现均匀绿色的彩色颗粒,以及呈现黑色的约25%的着色颗粒。

    LATERAL FLOW ASSAY APPARATUS AND METHOD, AND SENSOR THERFOR
    9.
    发明申请
    LATERAL FLOW ASSAY APPARATUS AND METHOD, AND SENSOR THERFOR 审中-公开
    侧流测试装置和方法,传感器

    公开(公告)号:US20160313313A1

    公开(公告)日:2016-10-27

    申请号:US15101007

    申请日:2014-01-16

    申请人: HER MAJESTY THE QUEEN IN RIGHT OF CANADA, as represented by THE MINISTER OF NATIONAL DEFENCE

    发明人: Ryan J. Love Kristin Topping Michel A. Paul Heinz-Bernhard Kraatz

    IPC分类号: G01N33/543 G01N27/327 G01N33/74

    CPC分类号: G01N33/5438 G01N27/3276 G01N33/558 G01N33/74 G01N2333/575

    摘要: An apparatus for electrochemically detecting and/or measuring an analyte (e.g. melatonin) in a fluid sample has a dry porous carrier that permits flow of a fluid sample by capillary action to biosensor (e.g. an analyte detection electrode set). The biosensor has a working electrode and a counter electrode disposed across the carrier in a non-parallel direction in relation to a direction of fluid flow such that the fluid sample crosses at least the working electrode embedded in the carrier. The working electrode has an analyte-specific binder immobilized on an electrically conductive material and the biosensor is configured to electrochemically, e.g. voltammetrically, detect the presence of and/or measure the amount of the analyte bound at the working electrode after the fluid sample crosses the working electrode.

    摘要翻译: 用于电化学检测和/或测量流体样品中的分析物(例如褪黑素)的装置具有允许流体样品​​通过毛细管作用流向生物传感器(例如分析物检测电极组)的干燥多孔载体。 生物传感器具有相对于流体流动方向在非平行方向跨过载体设置的工作电极和对电极,使得流体样品至少与嵌入载体中的工作电极交叉。 工作电极具有固定在导电材料上的分析物特异性粘合剂,并且生物传感器被配置为电化学地,例如, 伏安法检测在流体样品与工作电极交叉后,在工作电极处结合的分析物的存在和/或测量。