Techniques are provided for entering a secret into a security token using an embedded tactile sensing user interface with the purpose of verifying the secret against a stored representation of the same secret. In particular, an embodiment of the security token according to the invention comprises a
Techniques are provided for entering a secret into a security token using an embedded tactile sensing user interface with the purpose of verifying the secret against a stored representation of the same secret. In particular, an embodiment of the security token according to the invention comprises a tactile sensing user interface being arranged to receive a user-encoded secret, a decoding unit being arranged to generate a decoded secret by decoding the user-encoded secret, a comparison unit being arranged to compare the decoded secret with a copy of the secret stored in the token in order to verify the authenticity of a user. Thereby, the security token provides on-card matching functionality.
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1. A security token comprising: a tactile sensing user interface being configured to receive a user-encoded secret, wherein the user-encoded secret is a tactile symbol, and the tactile sensing user interface is configured to capture tactile patterns and provide a tactile pattern data stream which re
1. A security token comprising: a tactile sensing user interface being configured to receive a user-encoded secret, wherein the user-encoded secret is a tactile symbol, and the tactile sensing user interface is configured to capture tactile patterns and provide a tactile pattern data stream which represents the tactile symbol and comprises a sequence of said tactile patterns to the decoding unit;a decoding unit configured to generate a decoded secret by decoding the user-encoded secret and by applying a private inverse transfer function to the tactile pattern data stream, wherein the private inverse transfer function is an inverse of a private transfer function applied by the user to encode the tactile symbol;a comparison unit being configured to compare the decoded secret with a copy of the user-encoded secret stored in the security token in order to verify authenticity of the user; and a release foil with printed tactile key information configured to define the private inverse transfer function. 2. The security token as claimed in claim 1, wherein the private inverse transfer function is definable by the user via the tactile sensing user interface in a configuration mode of the security token. 3. The security token as claimed in claim 2, wherein the private inverse transfer function further reflects user-specific tactile pattern deviations captured by the tactile sensing user interface in the configuration mode of the security token, such that entropy of the user-encoded secret is increased. 4. The security token as claimed in claim 2, wherein the private inverse transfer function further reflects sensor-device-specific tactile pattern deviations applied by the tactile sensing user interface in the configuration mode of the security token, such that entropy of the user-encoded secret is increased. 5. The security token as claimed in claim 1, wherein the tactile sensing user interface comprises: an array of proximity sensors or mechanical pressure sensors. 6. The security token as claimed in claim 1, wherein the tactile sensing user interface comprises: a mesh network of proximity sensing capacitors. 7. The security token as claimed in claim 5, wherein the proximity sensors comprise one of a group of proximity sensing capacitors, proximity sensing resistors, surface acoustic wave sensors, infra-red light sources, and optical receivers. 8. The security token as claimed in claim 7, further comprising: a compressible layer on which an array of proximity sensing capacitors is mounted; andcounter-electrodes underneath the compressible layer, wherein said counter-electrodes form pressure-dependent capacitances with the array of the proximity sensing capacitors. 9. The security token as claimed in claim 5, further comprising: button functions assigned to sub-areas of an area covered by the array of the proximity sensors or the mechanical pressure sensors; anda surface print design which provides a visual overview of said button functions. 10. The security token as claimed in claim 1, wherein the tactile symbol comprises a personal identification number, the private inverse transfer function translates elements of a user-defined character repertoire to digits of the personal identification number, and the user-defined character repertoire comprises at least one of a group of: alphanumeric character tactile patterns corresponding to said digits, key position tactile patterns corresponding to said digits, and graphical symbol tactile patterns corresponding to said digits. 11. The security token as claimed in claim 1, wherein the tactile symbol comprises a signature short-cut and the private inverse transfer function decodes a tactile pattern which represents said signature short-cut. 12. The security token as claimed in claim 1, further comprising at least one of a group of: a feedback indicator, a status indicator, a display, and an audio output. 13. The security token as claimed in claim 1, further comprising a display, the display comprising at least one of a group of: icons, segments, and active areas that have been structured by a printed shadow mask. 14. The security token as claimed in claim 1, further comprising: a backchannel implemented by a program element and configured to communicate with a host system such that the security token may use a display of the host system as a virtual display. 15. The security token of claim 1, wherein an external electromagnetic field provides power to the security token. 16. The security token as claimed in claim 15, wherein the security token is configured to receive power for operating the tactile sensing user interface, the decoding unit, and the comparison unit from the external electromagnetic field. 17. The security token as claimed in claim 15, further comprising: a radio frequency identification (RFID) interface that is configured to enable communication with RFID devices and NFC-enabled devices and receive power from the external electromagnetic field generated by said RFID devices or NFC-enabled devices. 18. The security token as claimed in claim 15, further comprising: a power unit that is configured to power the security token from the external electromagnetic field, wherein the power unit comprises one or more super capacitors configured to buffer energy and said one or more super capacitors consist of electrochemical double-layer capacitors. 19. The security token as claimed in claim 1, further comprising: a tapped antenna structure or an antenna with at most three turns in order to maximize efficiency of power coupling to the security token. 20. The security token as claimed in claim 1, further comprising: an optical communication interface which is configured to establish a secure backchannel, wherein the optical communication interface is embedded into a body of the security token. 21. The security token as claimed in claim 1, wherein the surface of the security token is overlaid by the tactile sensing user interface such that tactile patterns entered by the user are sensed through said surface. 22. The security token as claimed in claim 1, wherein the tactile sensing user interface comprises: a key-pad layout. 23. The security token as claimed in claim 1, wherein the security token is either an electronic identification card or an electronic passport. 24. The security token as claimed in claim 1, the security token having a portrait format. 25. An authentication system comprising an authentication server and the security token as claimed in claim 1, wherein the security token is further configured to send a verification result to the authentication server.
Manaresi, Nicolò; Tartagni, Marco; Monnier, Joel; Guerrieri, Roberto, Textile-like capacitive pressure sensor and method of mapping the pressure exerted at points of a surface of a flexible and pliable object, particularly of a sail.
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