| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | PROCÉDÉ DE FABRICATION D'INSERTS POUR PASSEPORT ÉLECTRONIQUE | EP12721326.2 | 2012-04-04 | EP2695110A1 | 2014-02-12 | RIPERT, Anne; VOLPE, Pierre; CUENOT, Yves-Pierre; HENAUT, Guillaume |
| The invention relates to a method for manufacturing inserts (41) provided with an electronic module (44) supporting a chip and an antenna (43), comprising the steps of: supplying (30) top and bottom substrate sheets (46) for a plurality of inserts, said substrates being provided with cavities (42) for subsequently inserting an electronic module in each cavity; providing (31) an antenna for each insert; providing (33) at least one layer of adhesive; providing (32) an electronic module for each insert; (36) stacking and assembling by lamination (37) a bottom substrate sheet (46), a first layer of adhesive (54), a plurality of antennas (43), a second layer of adhesive (54) and a top substrate sheet (46); cutting (38) the laminated assembly such as to obtain inserts each provided with an antenna; inserting the electronic modules (44) in the cavities (42) after the step of laminating (37) the substrate sheets (46), antennas (43) and layers of adhesive (54). Said method is characterised by also comprising a step which consists of printing the inner surface of at least one of the substrate sheets (46) with a thickness-compensation layer (55), outside the substrate area (46) intended for receiving the antenna (43). | ||||||
| 102 | Method for secure e-passports and e-visas | US09915665 | 2001-07-26 | US20030023858A1 | 2003-01-30 | Dwip N. Banerjee; Rabindranath Dutta; Kamal Chandrakant Patel |
| A method, program, and system for creating and validating an electronic identification document are provided. The invention comprises providing an electronic document to a user, wherein the electronic document contains input fields for personal identification information, and receiving the user's personal identification information in the input fields of the electronic document. Next an electronic signature is received from the user and attached to the electronic document. An electronic certificate is added to the document, and the entire document is encrypted. The electronic document is then downloaded to a pervasive computing device, such as a PDA, palm pilot, or mobile phone. The electronic document acts as a legally valid form of identification, such as a passport. To validate the document, the document is uploaded from the pervasive computing device to an authorizing machine which decrypts the document. The digital certificate and electronic signature attached to the document are then verified for authenticity. After validation, the document is re-encrypted and downloaded back to the pervasive computing device. | ||||||
| 103 | A privacy-enhanced e-passport authentication protocol | EP06741548.9 | 2006-05-23 | EP1886437B1 | 2012-06-27 | VANSTONE, Scott A.; BROWN, Daniel R. L. |
| A passport authentication protocol provides for encryption of sensitive data such as biometric data and transfer of the encryption key from the passport to the authentication authority to permit comparison to a reference value A cryptographic linkage is created by digitally signing identity data and biometric data of an individual An elliptic curve cryptosystem is proposed whereby a message is divided into a primary part (Ml) comprising confidential and sensitive information (biometric data), and a secondary part (M2) comprising publicly available information Ml is encrypted using a session encryption key, combined with M2 and then hashed using a secure hash function and transferred through an RFID tag along with a signature component which includes a certificate of the public key to another device (reader) A device verifies and validates the public key and computes the session encryption key to decrypt the biometric data in Ml and hence authenticate the bearer of the passport from recovered biometπc sensor data | ||||||
| 104 | A PRIVACY-ENHANCED E-PASSPORT AUTHENTICATION PROTOCOL | EP06741548.9 | 2006-05-23 | EP1886437A1 | 2008-02-13 | VANSTONE, Scott A.; BROWN, Daniel R. L. |
| A passport authentication protocol provides for encryption of sensitive data such as biometric data and transfer of the encryption key from the passport to the authentication authority to permit comparison to a reference value A cryptographic linkage is created by digitally signing identity data and biometric data of an individual An elliptic curve cryptosystem is proposed whereby a message is divided into a primary part (Ml) comprising confidential and sensitive information (biometric data), and a secondary part (M2) comprising publicly available information Ml is encrypted using a session encryption key, combined with M2 and then hashed using a secure hash function and transferred through an RFID tag along with a signature component which includes a certificate of the public key to another device (reader) A device verifies and validates the public key and computes the session encryption key to decrypt the biometric data in Ml and hence authenticate the bearer of the passport from recovered biometπc sensor data | ||||||
| 105 | Smart card for passport, electronic passport, and method, system, and apparatus for authenticating person holding smart card or electronic passport | US10832781 | 2004-04-26 | US20050240778A1 | 2005-10-27 | Tamio Saito |
| A smart card authenticates a cardholder. The smart card includes a substrate, a sensor module, a wireless transceiver module, and a power circuit. The sensor module includes (a) a biometric sensor adapted to detect biometric information from a person's body, (b) a processor unit adapted to authenticate the person in response to the detected biometric information and generate an authentication signal representing an authentication result, and (c) a memory adapted to store biometric information of a specific individual associated with the smart card. The wireless transceiver module transmits signals received from the processor unit and receives a wirelessly-transmitted power signal. The power circuit generates at least one supply voltage from the received power signal and provides the supply voltage to the sensor module. An electronic passport is embedded with the smart card, and a terminal module is used for wirelessly transmitting power to and receiving signals from the electronic passport. | ||||||
| 106 | Method for manufacturing inserts for electronic passports | US14009930 | 2012-04-04 | US09256821B2 | 2016-02-09 | Anne Ripert; Pierre Volpe; Yves-Pierre Cuenot; Guillaume Henaut |
| A method for manufacturing inserts provided with an electronic module supporting a chip and an antenna includes supplying top and bottom substrate sheets for a plurality of inserts, said substrates being provided with cavities for subsequently inserting an electronic module in each cavity; providing an antenna for each insert; providing at least one layer of adhesive; providing stacking and assembling by lamination a bottom substrate sheet, a first layer of adhesive, a plurality of antennas, a second layer of adhesive and a top substrate sheet; cutting the laminated assembly to obtain inserts each provided with an antenna; inserting electronic modules in the cavities after the step of laminating the substrate sheets, antennas and layers of adhesive. The method also includes printing the inner surface of at least one of the substrate sheets with a thickness-compensation layer, outside the substrate area intended for receiving the antenna. | ||||||
| 107 | Method and device for checking an electronic passport | US11990346 | 2006-08-09 | US08857717B2 | 2014-10-14 | Werner Ness |
| The invention relates to a method for performing machine checking of electronically-stored personal data in a passport booklet. The data are transmitted in an obscured form to a reader device after the passport has been presented to this reader device, and the accuracy of the obscuring is first verified and the obscuring is then removed. A positive signal is issued in the event of a successful verification. The recovered personal data are subsequently checked for authenticity. The verification and removal of the obscuring, as well as the authenticity check, ensue in a time-staggered manner after the passport booklet has been removed from the reader device by a verifying person in order to conduct further checks. | ||||||
| 108 | Portable electronic device and control method for processing passports | US12173684 | 2008-07-15 | US08266364B2 | 2012-09-11 | Ryouichi Kuriyama |
| A portable electronic device is provided with a storage section which stores various pieces of information and a transmitter/receiver section which transmits and receives data to and from external equipment. It is determined whether or not data paired with write data contained in a write command is stored by the storage section when the write command is received by the transmitter/receiver section, the write data is written to the storage section if it is concluded that the data paired with the write data contained in the write command is stored by the storage section, and the transmitter/receiver section is caused to transmit a result of determination on abnormality to the external equipment if it is concluded that the data paired with the write data contained in the write command is not stored by the storage section. | ||||||
| 109 | Method and device for checking an electronic passport | US11990346 | 2006-08-09 | US20090090777A1 | 2009-04-09 | Werner Ness |
| The invention relates to a method for performing machine checking of electronically-stored personal data in a passport booklet. The data are transmitted in an obscured form to a reader device after the passport has been presented to this reader device, and the accuracy of the obscuring is first verified and the obscuring is then removed. A positive signal is issued in the event of a successful verification. The recovered personal data are subsequently checked for authenticity. The verification and removal of the obscuring, as well as the authenticity check, ensue in a time-staggered manner after the passport booklet has been removed from the reader device by a verifying person in order to conduct further checks. | ||||||
| 110 | Privacy-enhanced e-passport authentication protocol | US11436986 | 2006-05-19 | US20070122004A1 | 2007-05-31 | Daniel Brown; Scott Vanstone |
| A passport authentication protocol provides for encryption of sensitive data such as biometric data and transfer of the encryption key from the passport to the authentication authority to permit comparison to a reference value. | ||||||
| 111 | Privacy-enhanced E-passport authentication protocol | US12776803 | 2010-05-10 | US08880888B2 | 2014-11-04 | Daniel R. L. Brown; Scott A. Vanstone |
| A passport authentication protocol provides for encryption of sensitive data such as biometric data and transfer of the encryption key from the passport to the authentication authority to permit comparison to a reference value. | ||||||
| 112 | Privacy-enhanced e-passport authentication protocol | US11436986 | 2006-05-19 | US07720221B2 | 2010-05-18 | Daniel R. L. Brown; Scott A. Vanstone |
| A passport authentication protocol provides for encryption of sensitive data such as biometric data and transfer of the encryption key from the passport to the authentication authority to permit comparison to a reference value. | ||||||
| 113 | PROCEDE DE MONTAGE D’UN COMPOSANT ELECTRONIQUE SUR UN SUPPORT DE PREFERENCE MOU, ET ENTITE ELECTRONIQUE AINSI OBTENUE, TELLE QU’UN PASSEPORT | PCT/FR2005/002266 | 2005-09-13 | WO2006035128A2 | 2006-04-06 | ENOUF, Guy; BORDE, Xavier; DEMAIMAY, Florian |
Pour monter un composant électronique, tel qu'une puce électronique, sur un support : * on prend un composant électronique 40 comportant des plots de connexion, dont un plot 41 A, prédéterminé, est muni d'un bossage 42, * on prend un support 30 comportant au moins un terminal 31 à connecter électriquement audit plot prédéterminé par l'intermédiaire dudit bossage, * on met en regard ce plot prédéterminé muni du bossage et ce terminal, on met en contact ce bossage et ce terminal et on les fixe l'un à l'autre dans des conditions données de température et de pression. Avant de mettre en contact et de fixer ce bossage et ce terminal, on recouvre la surface de ce terminal par une couche isolante 32, cette couche isolante étant en un matériau choisi en sorte d'être traversé par ce bossage dans lesdites conditions de température et de pression. |
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| 114 | A privacy-enhanced E-passport authentication protocol | EP12167844.5 | 2006-05-23 | EP2490366B1 | 2015-01-07 | Vanstone, Scott A.; Brown, Daniel R. L. |
| 115 | Method of Producing a Contactless Microelectronic Device, Such as for an Electronic Passport | US11884123 | 2006-02-03 | US20090057414A1 | 2009-03-05 | Olivier Brunet; Jean-Francois Salvo; Ivan Peytavin |
| A method of manufacturing a microelectronic device with contactless operation, mainly for electronic passports. An antenna is made on a thin, flexible substrate. A perforated sheet that is thin and calibrated, and that has at least one cavity in its thickness, is placed on the substrate. A microelectronic chip is placed in each cavity of the perforated sheet and the output contacts of the microelectronic chip are connected to corresponding terminals of the antenna. The microelectronic chip is protected by sealing off the cavity that contains the chip. The method is particularly adapted for manufacturing electronic radiofrequency identification devices, in particular for electronic passports. | ||||||
| 116 | 用于电脑的图形用户界面(Web界面_电子护照指纹采集系统) | CN201730610588.7 | 2017-12-04 | CN304747182S | 2018-07-27 | 胡广宇 |
| 1.本外观设计产品的名称:用于电脑的图形用户界面(Web界面_电子护照指纹采集系统)。 2.本外观设计产品的用途:本外观设计产品用于运行程序。 3.本外观设计产品的设计要点:在于屏幕中的图形用户界面。 4.最能表明本外观设计设计要点的图片或照片:主视图。 5.省略视图:因不涉及产品设计要点,省略俯视图,仰视图,左视图,右视图,后视图。 | ||||||
| 117 | Secure Document, In Particular Electronic Passport With Enhanced Security | US12083012 | 2006-08-03 | US20090219136A1 | 2009-09-03 | Olivier Brunet; Olivier Artigue; Henri Boccia; Philippe Patrice; Ivan Peytavin |
| A secure document, in particular an electronic passport, includes a support equipped, on the one hand, with active security devices having a microcircuit connected to an antenna that can produce an electromagnetic response when it passes through the electromagnetic field of a contactless reader designed to query the identity document. The support is equipped, on the other hand, with passive security devices selected so as to have electrical characteristics, in particular inductive, capacitive and resistive, that are suitable for amplifying the electromagnetic response of the active security devices to make it go beyond a threshold that allows the secure document to be identified when it is placed in the electromagnetic field of a contactless reader. The invention has a useful application in national programs to issue passports with increased security. | ||||||
| 118 | SMART CARD FOR PASSPORT, ELECTRONIC PASSPORT, AND METHOD, SYSTEM, AND APPARATUS FOR AUTHENTICATING PERSON HOLDING SMART CARD OR ELECTRONIC PASSPORT | EP05758397.3 | 2005-04-22 | EP1759337A1 | 2007-03-07 | SAITO, Tamio |
| A smart card authenticates a cardholder. The smart card includes a substrate, a sensor module, a wireless transceiver module, and a power circuit. The sensor module includes (a) a biometric sensor adapted to detect biometric information from a person's body, (b) a processor unit adapted to authenticate the person in response to the detected biometric information and generate an authentication signal representing an authentication result, and (c) a memory adapted to store biometric information of a specific individual associated with the smart card. The wireless transceiver module transmits signals received from the processor unit and receives a wirelessly-transmitted power signal. The power circuit generates at least one supply voltage from the received power signal and provides the supply voltage to the sensor module. An electronic passport is embedded with the smart card, and a terminal module is used for wirelessly transmitting power to and receiving signals from the electronic passport. | ||||||
| 119 | Method of producing a contactless microelectronic device, such as for an electronic passport | US11884123 | 2006-02-03 | US07992790B2 | 2011-08-09 | Olivier Brunet; Jean-Francois Salvo; Ivan Peytavin |
| A method of manufacturing a microelectronic device with contactless operation, mainly for electronic passports. An antenna is made on a thin, flexible substrate. A perforated sheet that is thin and calibrated, and that has at least one cavity in its thickness, is placed on the substrate. A microelectronic chip is placed in each cavity of the perforated sheet and the output contacts of the microelectronic chip are connected to corresponding terminals of the antenna. The microelectronic chip is protected by sealing off the cavity that contains the chip. The method is particularly adapted for manufacturing electronic radiofrequency identification devices, in particular for electronic passports. | ||||||
| 120 | SYSTEM AND METHOD OF SERIAL COMPARISON OF 12-LEAD ELECTROCARDIOGRAM (ECG) DURING EPISODE-OF-CARE | US14587584 | 2014-12-31 | US20160183826A1 | 2016-06-30 | Gordon Ian Rowlandson; Joel Qiuzhen Xue; Brian J. Young; Anthony Holmes |
| The system and method of the present application selects and presents ECGs that are most important to the user in conjunction with a measurement trend that relates to the diagnosis and management of the abnormality. In addition, the system and method of the present application will guide the user to verify whether the ECGs selected by the computer were valid and if not guide the user through measurement trends to find 12-ECGs of significance. | ||||||
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