Patent application number | Description | Published |
20080205714 | Method and Apparatus for Fingerprint Image Reconstruction - Enhanced accuracy finger position and motion sensors devices, algorithms, and methods are disclosed that can be used in a variety of different applications. The sensors can be used in conjunction with partial fingerprint imagers to produce improved fingerprint scanners. Such improved scanners can use image analysis techniques, such as interpolation between partial fingerprint images to correct for missing data, or discarding redundant partial fingerprint image data, to produce adequate fingerprint images even when the finger has not been applied to the sensor using an optimum technique. | 08-28-2008 |
20080219521 | Method and Algorithm for Accurate Finger Motion Tracking - Enhanced accuracy finger position and motion sensors devices, algorithms, and methods are disclosed that can be used in a variety of different applications. The sensors can be used in conjunction with partial fingerprint imagers to produce improved fingerprint scanners. The finger motion sensors may also be used (either with or without a partial fingerprint imager) to produce highly accurate fingerprint images as well as to control electronic devices. Here improved signal analysis algorithms and methods are disclosed that enable finger position to be determined with higher levels of accuracy as the finger is swiped over finger position sensing arrays. These algorithms are particularly useful for deep finger penetrating radio frequency (RF) based sensing arrays. | 09-11-2008 |
20080240523 | Method and Apparatus for Two-Dimensional Finger Motion Tracking and Control - Enhanced accuracy finger position and motion sensors devices, algorithms, and methods are disclosed that can be used in a variety of different applications. The sensors can be used in conjunction with partial fingerprint imagers to produce improved fingerprint scanners. The finger motion sensors may also be used (either with or without a partial fingerprint imager) to control electronic devices. When several of these finger motion and position sensors are aligned in different directions, finger motion over a two dimensional surface may be detected. This creates a finger controlled “mouse” computer input device. Motion of a finger along the surface of such sensors may allow a user to control the movement of an indicator on a display screen, and control a microprocessor device. Such techniques are particularly useful for small space constrained devices, such as cell phones, smart cards, music players, portable computers, personal digital accessories, and the like. | 10-02-2008 |
20090155456 | System and Method for Fingerprint-Resistant Surfaces for Devices Using Fingerprint Sensors - The invention is an enhanced security fingerprint scanner method and system designed to minimize the risk of fingerprint “spoofing” by minimizing the probability that latent fingerprints from authorized users will be inadvertently left on the device. In a preferred embodiment, surfaces of the device where the probably of authorized users inadvertently leaving latent fingerprints is particularly high are covered with fingerprint resistant or camouflaging material. | 06-18-2009 |
20100189314 | LIVE FINGER DETECTION - A live finger detection system and method includes a drive plate configured to inject radio frequency signals into an object proximate the drive plate. The injected radio frequency energy causes the object to radiate an electric field. A pickup plate is configured to detect an intensity associated with the electric field radiated by the object. A sensor coupled to the pickup plate is configured to determine whether the object is a live finger based on the detected intensity of the electric field radiated by the object. | 07-29-2010 |
20100284565 | Method and apparatus for fingerprint motion tracking using an in-line array - A fingerprint motion tracking method and system is provided for sensing features of a fingerprint along an axis of finger motion, where a linear sensor array has a plurality of substantially contiguous sensing elements configured to capture substantially contiguous overlapping segments of image data. A processing element is configured to receive segments of image data captured by the linear sensor array and to generate fingerprint motion data. Multiple sensor arrays may be included for generating directional data. The motion tracking data may be used in conjunction with a fingerprint image sensor to reconstruct a fingerprint image using the motion data either alone or together with the directional data. | 11-11-2010 |
20120308092 | METHOD AND APPARATUS FOR FINGERPRINT IMAGE RECONSTRUCTION - Enhanced accuracy finger position and motion sensors devices, algorithms, and methods are disclosed that can be used in a variety of different applications. The sensors can be used in conjunction with partial fingerprint imagers to produce improved fingerprint scanners. Such improved scanners can use image analysis techniques, such as interpolation between partial fingerprint images to correct for missing data, or discarding redundant partial fingerprint image data, to produce adequate fingerprint images even when the finger has not been applied to the sensor using an optimum technique. | 12-06-2012 |
20130094715 | SYSTEM FOR DETERMINING THE MOTION OF A FINGERPRINT SURFACE WITH RESPECT TO A SENSOR SURFACE - A fingerprint motion tracking method and system is provided for sensing features of a fingerprint along an axis of finger motion, where a linear sensor array has a plurality of substantially contiguous sensing elements configured to capture substantially contiguous overlapping segments of image data. A processing element is configured to receive segments of image data captured by the linear sensor array and to generate fingerprint motion data. Multiple sensor arrays may be included for generating directional data. The motion tracking data may be used in conjunction with a fingerprint image sensor to reconstruct a fingerprint image using the motion data either alone or together with the directional data. | 04-18-2013 |
20130279769 | Biometric Sensing - An novel sensor is provided having a plurality of substantially parallel drive lines configured to transmit a signal into a surface of a proximally located object, and also a plurality of substantially parallel pickup lines oriented proximate the drive lines and electrically separated from the pickup lines to form intrinsic electrode pairs that are impedance sensitive at each of the drive and pickup proximal locations. | 10-24-2013 |
20140212009 | BIOMETRIC SENSING - An novel sensor is provided having a plurality of substantially parallel drive lines configured to transmit a signal into a surface of a proximally located object, and also a plurality of substantially parallel pickup lines oriented proximate the drive lines and electrically separated from the pickup lines to form intrinsic electrode pairs that are impedance sensitive at each of the drive and pickup proximal locations. | 07-31-2014 |
20140300574 | BIOMETRIC SENSING - An novel sensor is provided having a plurality of substantially parallel drive lines configured to transmit a signal into a surface of a proximally located object, and also a plurality of substantially parallel pickup lines oriented proximate the drive lines and electrically separated from the pickup lines to form intrinsic electrode pairs that are impedance sensitive at each of the drive and pickup proximal locations. | 10-09-2014 |
20140355845 | METHOD AND APPARATUS FOR FINGERPRINT IMAGE RECONSTRUCTION - An apparatus and method for obtaining a biometric image is disclosed, which may comprise: providing a biometric image sensor which may comprise one of a one dimensional swiped sensor array, a two dimensional swiped sensor array and a two dimensional placement sensor array, each of which may comprise a capacitive gap sensor measuring a change in a transmitted signal received as a received signal, based upon changes in the transmitted signal passing through a biometric, the biometric image sensor may be one of mounted on a host device or cooperating with the host device; providing a biometric placement positioning prompt on a display on the host device, which prompt may indicate whether a current positioning of the biometric is proper for initiating biometric imaging by the biometric image sensor, e.g., indicating a current positioning of the biometric and the desired positioning of the biometric. | 12-04-2014 |
Patent application number | Description | Published |
20120247755 | Dump Bailer - A dump bailer for downhole placement of flowable materials in a wellbore. The dump bailer has an elongated housing with a cavity for placement of the flowable materials. The housing has an open bottom. In one embodiment, an expendable cap or plug, of a magnetic material, is held within the open bottom by a shear pin, sufficient to hold the plug in place with the material within the cavity. An electric solenoid surrounds the plug. Energizing the solenoid coil by electric current creates a magnetic field which overcomes the shear pin and forces the plug out of the open bottom. The material may then flow out of the cavity. In another embodiment, a sliding sleeve is disposed in the open bottom, which moves from a first closed position to a second open position, in response to the magnetic field. | 10-04-2012 |
20140174720 | Dump Bailer - A dump bailer for downhole placement of flowable materials in a wellbore. The dump bailer has an elongated housing with a cavity for placement of the flowable materials. The housing has an open bottom. In one embodiment, an expendable cap or plug, of a magnetic material, is held within the open bottom by a shear pin, sufficient to hold the plug in place with the material within the cavity. An electric solenoid surrounds the plug. Energizing the solenoid coil by electric current creates a magnetic field which overcomes the shear pin and forces the plug out of the open bottom. The material may then flow out of the cavity. In another embodiment, a sliding sleeve is disposed in the open bottom, which moves from a first closed position to a second open position, in response to the magnetic field. | 06-26-2014 |