Time domain differential techniques to characterize various stimuli
First Claim
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1. A method comprising:
- providing a sensor, the sensor being a capacitive sensor, the capacitive sensor including an output;
detecting a stimulus based on a rate of change of the capacitive sensor output, the stimulus including placement of an object against a touch surface;
measuring the magnitude of the capacitive sensor output;
in response to detecting placement of the object against the touch surface, comparing the magnitude of the capacitive sensor output with a predetermined threshold capacitance corresponding to the capacitance of a bare finger stored to computer readable memory to verify the object is a bare finger lacking a carrier material; and
in response to verifying the object is a bare finger based on a determination that the magnitude of the capacitive sensor output is greater than the predetermined threshold capacitance, mapping ridges and valleys of the bare finger using the capacitive sensor output;
wherein the comparing the magnitude of the capacitive sensor output with the predetermined threshold capacitance corresponding to the capacitance of the bare finger stored to the computer readable memory occurs prior to the mapping the ridges and valleys of the bare finger using the capacitive sensor output.
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Abstract
A method for determining a stimulus is provided. The method includes determining a touch condition based on the rate of change of electrode capacitance, measuring a characteristic of the electrode capacitance in response to the touch condition being met, and evaluating the measured characteristic to determine the touch stimulus. The method can improve the ability to determine a touch stimulus over existing methods, including the ability to determine fingerprint and handprint biometrics, for example.
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Citations
20 Claims
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1. A method comprising:
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providing a sensor, the sensor being a capacitive sensor, the capacitive sensor including an output; detecting a stimulus based on a rate of change of the capacitive sensor output, the stimulus including placement of an object against a touch surface; measuring the magnitude of the capacitive sensor output; in response to detecting placement of the object against the touch surface, comparing the magnitude of the capacitive sensor output with a predetermined threshold capacitance corresponding to the capacitance of a bare finger stored to computer readable memory to verify the object is a bare finger lacking a carrier material; and in response to verifying the object is a bare finger based on a determination that the magnitude of the capacitive sensor output is greater than the predetermined threshold capacitance, mapping ridges and valleys of the bare finger using the capacitive sensor output; wherein the comparing the magnitude of the capacitive sensor output with the predetermined threshold capacitance corresponding to the capacitance of the bare finger stored to the computer readable memory occurs prior to the mapping the ridges and valleys of the bare finger using the capacitive sensor output. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method comprising:
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providing a sensor, the sensor being a capacitive sensor, the capacitive sensor including an output; detecting the presence of a stimulus based on a rate of change of the capacitive sensor output, the stimulus including placement of an object against a touch surface; measuring the magnitude of the capacitive sensor output; in response to detecting placement of the object against the touch surface, comparing the magnitude of the capacitive sensor output with a predetermined threshold capacitance corresponding to the capacitance of a bare finger stored to computer readable memory to verify the object is a bare finger lacking a carrier material based on a determination that the magnitude of the capacitive sensor output is greater than the predetermined threshold capacitance for a first phase; in response to verifying the object is a bare finger lacking a carrier material, measuring biometric fingerprint data from the finger using the capacitive sensor by mapping ridges and valleys of the bare finger using the capacitive sensor output for a second phase; and comparing the measured biometric fingerprint data with stored biometric fingerprint data for fingerprint recognition for a third phase; wherein the first phase occurs prior to the second phase and the third phase. - View Dependent Claims (9, 10, 11, 12, 13)
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14. A method comprising:
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providing a surface and a capacitive sensor proximate the surface, the capacitive sensor having an electrical output that varies as an object is moved toward or away from the surface; determining placement of the object against the surface based on a rate of change of the electrical output of the capacitive sensor; measuring the magnitude of the electrical output of the capacitive sensor attributed to placement of the object into contact with the surface; in response to detecting placement of the object against the surface, comparing the magnitude of the electrical output of the capacitive sensor with a predetermined threshold capacitance corresponding to the capacitance of a bare finger stored to computer readable memory to determine the object is a bare finger and not a finger having a carrier material; and in response to determining the object is a bare finger and not a finger having a carrier material based on a determination that the magnitude of the electrical output of the capacitive sensor is greater than the predetermined threshold capacitance, measuring biometric fingerprint data corresponding to ridges and valleys of the bare finger using the capacitive sensor; wherein the magnitude of the electrical output of the capacitive sensor of the object is compared with at least one non-mapping data point of the predetermined threshold capacitance corresponding to the capacitance of the bare finger stored to the computer readable memory. - View Dependent Claims (15, 16, 17, 18, 19, 20)
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Specification