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    • 1. 发明授权
    • Optical biometric acquisition device with information display intended for the user
    • 具有用于用户的信息显示的光学生物识别采集装置
    • US08149088B2
    • 2012-04-03
    • US11813070
    • 2005-12-22
    • Nicolas TissotEric Saliba
    • Nicolas TissotEric Saliba
    • G06K9/00
    • G06K9/00046G06K9/00912
    • The invention concerns a biometric capture optical device (1) comprising a prismatic optical element (2) having one side (4) appearing in a window (3) to provide a support surface for a bodily limb and illuminating means (6) designed to illuminate the side (4) from within the element (2) and form by total reflection a biometric image of the bodily limb; in addition, luminous information display means are located beneath the element (2) opposite the window (3) so as, in the absence of the bodily limb on the side (4), to transmit, without total reflection, through the window (3) a luminous information image visible from outside (15).
    • 本发明涉及一种生物测量捕获光学装置(1),其包括棱镜光学元件(2),其具有出现在窗口(3)中的一侧(4),以提供用于身体肢体的支撑表面和照明装置(6) (2)内的侧面(4),并通过全反射形成身体肢体的生物图像; 此外,发光信息显示装置位于与窗口(3)相对的元件(2)的下方,以便在没有全身反射的情况下,在侧面(4)上没有身体肢体的情况下,透过窗口(3) )从外部可见的发光信息图像(15)。
    • 2. 发明授权
    • Method and equipment for the identification of an individual by optical capture of a body imprint image
    • 通过光学捕获身体印记图像来识别个体的方法和设备
    • US08130265B2
    • 2012-03-06
    • US12530947
    • 2008-03-13
    • Julien BringerHervé ChabanneHervé Jarosz
    • Julien BringerHervé ChabanneHervé Jarosz
    • G06K9/00G06K9/46
    • G06K9/00046G06K9/00067G06K2009/00932
    • The invention relates to equipment for the identification of an individual by capture of body imprint images and of the underlying venous network, comprising: a prismatic optical element having: a large side for apposition of a body zone; a first inclined lateral side receiving a first radiation having a first wave length emitted by a first lighting means to light the large side with total reflection; a second inclined lateral side facing a first sensor receiving the first reflected radiation carrying an image of the body imprint; and a small side receiving a second radiation having a second wave length emitted by second lighting means, perpendicularly reaching the apposition zone and penetrating the body zone, and which faces a second sensor receiving the second reflected radiation carrying an image of the underlying venous network.
    • 本发明涉及通过拍摄身体印记图像和下面的静脉网来识别个体的设备,包括:棱镜式光学元件,其具有:用于安置身体区域的大侧面; 第一倾斜横向侧接收由第一照明装置发射的具有第一波长的第一辐射,以用全反射点亮大侧; 接收第一反射辐射的第二倾斜横向侧面,所述第一传感器承载携带身体印记图像的第一反射辐射; 以及接收由第二照明装置发射的具有第二波长的第二辐射的小侧垂直地到达所述安置区并穿透所述身体区域,并且面向接收所述第二反射辐射的第二传感器,所述第二反射辐射携带下面的静脉网络的图像。
    • 5. 发明申请
    • Device for connecting an electronic unit to screens of different types without distinction, and a corresponding screen
    • 用于将电子单元与不同类型的屏幕无差别地连接的装置和相应的屏幕
    • US20090128480A1
    • 2009-05-21
    • US11921660
    • 2006-06-01
    • Benjamin Thomas
    • Benjamin Thomas
    • G09G5/00
    • G09G5/003
    • The invention relates to a device for connecting an electronic unit (1) to different types of screen, the device comprising an external connection connector (6) possessing connector elements (10) distributed in a first series for connection to the display members (17, 21) of screens, and a second series for connection to a loudspeaker (18) of a screen of a first type (2) or to the display member (21) of a screen of a second type (3), the device comprising a display line (7) connected to the connector elements of the first series, a sound line (8) connected to a switch member (11) connected to the connector elements of the second series, and a detector element (12) connected to the connector elements of the connector and to the switch member to cause the switch member to take up a connection state when the connected screen is of the first type and a disconnection state when the connected screen is of the second type. The invention also relates to a screen for connection to the device.
    • 本发明涉及一种用于将电子单元(1)连接到不同类型的屏幕的装置,该装置包括一个外部连接连接器(6),该外部连接连接器(6)具有以第一系列分布的连接元件(10) 21)的屏幕和用于连接到第一类型(2)的屏幕的扬声器(18)或第二类型(3)的屏幕的显示构件(21)的第二系列,所述设备包括 连接到第一系列的连接器元件的显示线(7),连接到连接到第二系列的连接器元件的开关构件(11)的声音线(8)和连接到连接器的检测器元件 连接器的元件和开关构件,以使连接的屏幕处于第一类型时使开关构件处于连接状态,当连接的屏幕是第二类型时,断开状态。 本发明还涉及一种用于连接到该装置的屏幕。
    • 6. 发明申请
    • METHOD FOR PROCESSING AN IMPRINT IMAGE
    • 用于处理图像的方法
    • US20100321481A1
    • 2010-12-23
    • US12521457
    • 2008-01-08
    • Aurélie MorinJoël-Yann FourreSylvaine Picard
    • Aurélie MorinJoël-Yann FourreSylvaine Picard
    • G06K9/00H04N7/18
    • G06K9/00033G06K9/00046G06K9/48
    • A method for processing at least an imprint image of an individual using a processing device that comprises an exhibition glass sheet having a surface for receiving said imprint. The method includes acquiring without contact at least one image of the imprint present in the space upstream from the said surface and which has not yet been in contact with it and detecting the contact between the imprint and the exhibition glass sheet; acquiring by contact at least one image of the imprint after contact with the exhibition glass sheet; and standardizing at least one of the contact-less images in proportions that are identical to those of one of the contact images by analysing at least one of the contact-less images and at least one of the contact images.
    • 一种使用包括具有用于接收所述印记的表面的展示玻璃板的处理装置来处理个人的至少压印图像的方法。 该方法包括获取不接触存在于所述表面上游的空间中并且尚未与其接触并且检测印记和展示玻璃板之间的接触的印记的至少一个图像; 在与展览玻璃板接触后,联系至少一张印记图; 以及通过分析所述接触图像和所述接触图像中的至少一个中的至少一个,以与所述接触图像之一相同的比例来标准化所述无接触图像中的至少一个。
    • 7. 发明申请
    • Method of Coding a Secret Formed by a Numerical Value
    • 编码由数值形成的秘密的方法
    • US20100254531A1
    • 2010-10-07
    • US12746045
    • 2008-12-05
    • Herve Pelletier
    • Herve Pelletier
    • H04L9/28
    • H04L9/002H04L2209/08
    • A method of coding a secret, a numerical value d, subdivided into a number N of secret elements [di]n1, a composition law () applied to the elements di giving the value d. The following are calculated: (A) a first image (TN) of the secret by iterative calculation and application of the law () between the first image Ti−1 of rank i−1 and of the product according to this law of the element (di) of next rank and of a random value (Ri) of a first set, (B) a first numerical value (S1) by application of the law () to the N random values (Ri), (C) a second numerical value (S2) by application of the law to the N−1 random values (Aj) of a second set, (D) a second image T′ of the secret by application of the inverse law () to the first image (TN) and to the second numerical value (S2) so as to generate an intermediate image (Tx) and then application of the inverse law to the intermediate image (Tx) and to the second numerical value (S2). The random value (Aj) of corresponding rank is allocated (E) to the first N−1 elements (di) and the value of the second image (T′) is allocated (E) to the last element (dN). Application to secret or public key cryptography processes.
    • 将秘密元素[di] n1的数量N细分的秘密编码方法d,分配给赋予值d的元素di的构成定律()。 计算以下内容:(A)通过迭代计算和第i-1级的第一图像Ti-1之间的法则()和根据该元素的该定律的乘积的应用的秘密的第一图像(TN) (i)和(C)中的第二组合的第二组的第二组的第二组(第二组),第二组(R) 通过对第二组的N-1个随机值(Aj)应用数学值(S2),(D)通过对第一图像(TN)应用逆定律()的秘密的第二图像T' )和第二数值(S2),以产生中间图像(Tx),然后对中间图像(Tx)和第二数值(S2)应用逆定律。 将对应等​​级的随机值(Aj)分配给(E)到第一N-1个元素(di),并将第二图像(T')的值分配给(E)到最后一个元素(dN)。 应用于秘密密钥加密过程。
    • 8. 发明申请
    • Method of Validating a Biometric Capture, Notably a Body Print
    • 验证生物识别捕获的方法,特别是身体打印
    • US20100034433A1
    • 2010-02-11
    • US12446725
    • 2007-10-25
    • Alain ThiebotJoël-Yann FourreLaurent Lambert
    • Alain ThiebotJoël-Yann FourreLaurent Lambert
    • G06K9/00G01N21/55
    • G06K9/0012G06K9/2018
    • The invention relates to a method for validating a biometrical acquisition, mainly the acquisition of a body imprint of a body area such as fingerprints or a face imprint, wherein the method involves together with the biometric acquisition: lighting the body area using at least one radiation having at least two respective different wavelengths between approximately 500 nm and 1150 nm; taking at least two reflectometry measurements concerning said and at least two wavelengths for measuring the reflection index of the tissues for these wavelengths; calculating the ratio for two measured indices; and comparing the ratio with a range of reference values characterizing a haemoglobin-containing living tissue in terms of proportions of oxygenated and non-oxygenated forms characteristic of the living states for the wavelengths in question; if the ratio is included in said range, the body area is considered as living and the biometrical acquisition is validated; and conversely, if the body area is considered as not living, the biometrical acquisition cannot be validated.
    • 本发明涉及一种用于验证生物测量获取的方法,主要是获取诸如指纹或面部印记的身体区域的身体印记,其中所述方法与生物测定获取一起:使用至少一个辐射照射身体区域 在约500nm和1150nm之间具有至少两个相应的不同波长; 对于所述和至少两个波长进行至少两次反射测量测量,以测量这些波长的组织的反射指数; 计算两个测量指标的比率; 并且将所述比率与表征含血红蛋白的活体组织的参考值的范围以所述波长的活性状态特征的含氧和非氧化形式的比例进行比较; 如果该比率包括在所述范围内,则将身体区域视为活体,并且生物测定获得验证; 相反,如果身体区域被认为不生活,则不能验证生物测定。
    • 10. 发明申请
    • Processing Biometric Data in a Multidimensional Coordinate System
    • 在多维坐标系中处理生物特征数据
    • US20090231096A1
    • 2009-09-17
    • US12294608
    • 2007-03-20
    • Julien BringerHerve ChabanneMartin Cottard
    • Julien BringerHerve ChabanneMartin Cottard
    • G06F7/04
    • G06K9/00885G06K9/00087G06K9/00597
    • The invention concerns a biometric system provided with a set of reference biometric data (B′i) resulting from the application of a disjunction between a first set of biometric data (Bi) and a first encoded key (Ki), and from an information concerning the first key. A second set of biometric data (B2) is obtained. A second encoded key is determined by using a disjunction between the set of reference biometric data and the second set of biometric data. The second key is decoded by iterative decoding. Then, it is determined whether the first and second sets of biometric data mutually correspond by comparing the information concerning the first key with the second key. The first and second sets of biometric data are expressed in a multidimensional repository with N dimensions, the biometric data according to at least one of the N dimensions being obtained by using processes relative to the biometric part; and the first encoded key is obtained by using an encoding transforming an initial word of specific length into an encoded word in the multidimensional repository.
    • 本发明涉及一种生物测定系统,其具有由在第一组生物特征数据(Bi)和第一编码密钥(Ki)之间的分离的应用而得到的一组参考生物测定数据(B'i) 第一个关键 获得第二组生物特征数据(B2)。 第二编码密钥通过使用参考生物测定数据集与第二组生物特征数据之间的分离来确定。 第二个键通过迭代解码进行解码。 然后,通过将关于第一密钥的信息与第二密钥进行比较来确定第一组和第二组生物特征数据是否相互对应。 第一组和第二组生物特征数据在具有N维的多维存储库中表达,根据N维中的至少一个通过使用相对于生物特征部分的过程获得的生物特征数据; 并且通过使用将特定长度的初始字变换为多维存储库中的编码字的编码来获得第一编码密钥。