Abstract: An ultrasonic reflex imaging device and a method are described. A device according to the invention may include a platen, a generator, and a receiver positioned between the platen and the generator. A backer may be positioned so that the insonification device is between the receiver array and the backer. The backer may be configured to absorb or delay energy that originated from the generator. The generator produces an energy pulse, which travels through the receiver and the platen to reach a biological object. Part of the energy pulse is reflected from the biological object. The reflected energy pulse travels through the platen to the detector. The detector converts the reflect energy pulse to electric signals, which are then interpreted to create an image of the biological object.

Abstract: A method and device for using a small area-array sensor to produce a larger image of a biological object is disclosed. In a method according to the invention, the presence of a biological object is detected, and images of the biological object are collected using the area-array sensor. Pixels from at least some of the collected area-images are discarded to produce a set having modified area-images, and the area-images of the set are combined to form an extended image using an image merging algorithm.

Abstract: A biometric scanner is described and claimed. The scanner has a platen, an ultrasonic plane wave generator, an ultrasonic detector, and a delay layer residing between the generator and the detector.

Abstract: A method of forming a piezoelectric device is disclosed. In one such method, a coating material is formed. The coating material has a piezoelectric precursor. The coating material is applied to a first electrode. The precursor is heated to a temperature that is above the Curie temperature of the precursor, but below the melting temperature of the precursor. While the precursor is above its Curie temperature, a voltage is applied across the precursor. While the voltage is applied across the precursor, the temperature of the precursor is reduced to below the Curie temperature.

Abstract: Information management systems for clinical research, and related methods, are disclosed. The management system may have a database of biometric sample information. At least some of the pieces of sample information in the database may have been received from a test-subject in a first clinical research effort, and each piece of sample information may have a related pointer stored in the database. Each pointer may identify the location of clinical research information obtained during the first clinical research effort.

Abstract: The invention may be embodied as a fingerprint scanner having an ultrasonic wave detector, a platen, an ultrasonic wave generator located between the detector and the platen. The invention may be embodied as a method of scanning a finger. One such method includes providing a platen, a detector and a generator, the generator being placed between the platen and the detector. A finger may be provided on the platen, and an ultrasound wave pulse may be sent from the generator toward the finger. The wave pulse may be reflected from the finger, and received at the detector. The received wave pulse may be used to produce an image of the finger.

Abstract: Systems and methods of authorizing an activity, such as a financial transaction, are disclosed. Authorizing the activity may be accomplished by comparing a biometric sample to a biometric specimen. The sample is stored in a database and includes biometric information corresponding to two physiologically distinct portions of an individual. When that individual later is a person desiring to authorize an activity, he provides a specimen that includes biometric information corresponding to two physiologically distinct portions of his person. A comparison between the sample and the specimen is performed, and if a match is determined then the activity is authorized. If the comparison is performed and a match is not determined, then the activity is not authorized.

Abstract: An acoustic (sound or ultrasound) wave transmitter having a plurality of waveguides is described, and a method of making such a transmitter is described. Each waveguide may have a cladded core. The cladded core is capable of transmitting acoustic wave energy from a first end surface to a second end surface of the cladded core. The waveguides may be substantially fixed relative to each other by a binder. The binder may be formed by fusing the claddings together, potting a material between the waveguides and/or mechanically holding the waveguides.

Abstract: An acoustic (sound or ultrasound) wave transmitter having a plurality of waveguides is described, and a method of making such a transmitter is described. Each waveguide may have a cladded core. The core may be a liquid such as water, alcohol or mineral oil. Alternatively, the core may be a colloidal gel, such as gelatin dissolved in at least one of water, vinyl plastisol or silicone gel. The cladded core is capable of transmitting acoustic wave energy from a first end surface to a second end surface of the cladded core. The waveguides may be substantially fixed relative to each other by a binder. The binder may be formed by fusing the claddings together, potting a material between the waveguides and/or mechanically holding the waveguides.

Abstract: The invention may be embodied as a fingerprint scanner having an ultrasonic wave detector, a platen, an ultrasonic wave generator located between the detector and the platen. The invention may be embodied as a method of scanning a finger. One such method includes providing a platen, a detector and a generator, the generator being placed between the platen and the detector. A finger may be provided on the platen, and an ultrasound wave pulse may be sent from the generator toward the finger. The wave pulse may be reflected from the finger, and received at the detector. The received wave pulse may be used to produce an image of the finger.

Abstract: Methods and systems according to the invention may compare a large-area biometric specimen and a small-area biometric sample. For example, a large-area plain surface fingerprint image may be stored in a fingerprint database as a specimen, and then a small-area plain surface fingerprint image may be acquired as a sample. The small-area image sample may be submitted to a fingerprint matching system for comparison with a large-area image specimen from the database. A determination may be made as to whether the small-area image matches a portion of the large-area image.

Abstract: An acoustic (sound or ultrasound) wave transmitter having a plurality of waveguides is described, and a method of making such a transmitter is described. Each waveguide can have a cladded core. The core can be a liquid such as water, alcohol or mineral oil. Alternatively, the core can be a colloidal gel, such as gelatin dissolved in at least one of water, vinyl plastisol or silicone gel. The cladded core is capable of transmitting acoustic wave energy from a first end surface to a second end surface of the cladded core. The waveguides can be substantially fixed relative to each other by a binder. The binder can be formed by fusing the claddings together, potting a material between the waveguides and/or mechanically holding the waveguides.

Abstract: An acoustic pulse array is described. The pulse array can include a plane wave pulse generator having a first side from which a first wave emanates, and a second side from which a second wave emanates. A first waveguide array can be attached to the generator on the first side of the generator, and a second waveguide array can be attached to a second side of the generator. One or more of the waveguides can be attached to the generator so as to orient the waveguide to transmit wave pulses in a direction that is substantially perpendicular to the generator.

Abstract: An acoustic (sound or ultrasound) wave transmitter having a plurality of waveguides is described, and a method of making such a transmitter is described. Each waveguide can have a cladded core. The cladded core is capable of transmitting acoustic wave energy from a first end surface to a second end surface of the cladded core. The waveguides can be substantially fixed relative to each other by a binder. The binder can be formed by fusing the claddings together, potting a material between the waveguides and/or mechanically holding the waveguides.

Abstract: The invention includes a system and a method of scanning fingerprints. A system may include an imaging surface, an ultrasound transducer, a probe arm joined to the transducer, a driver capable of moving the pivot location linearly and the transducer arcuately, a measurer capable of measuring a linear position of the pivot-location and an arcuate position of the transducer, and a coupler capable of coupling information corresponding to the linear position and the arcuate position with information from the transducer.

Abstract: The invention may be embodied as a fingerprint scanner having a housing, a curved-surface imaging system and a planar imaging system. The curved-surface imaging system may be capable of collecting information that may be used to produce a curved-surface image of a finger. The planar imaging system may be capable of collecting information that may be used to produce a planar image of one or more fingers at a time.

Abstract: The invention may be embodied as an identity assurance system or method. A system according to the invention may have a biometric sensor capable of providing static biometric indications, a strap capable of positioning the sensor on an organism, and a computer in communication with the sensor. The computer may have software running on the computer in order to (a) cause the computer to determine whether there is a match between a subsequent static biometric indication and an initial static biometric indication, and (b) cause the computer to send a signal indicating whether a match was determined in order to assure the identity of the organism.

Abstract: The invention relates to a fingerprint scanning system and a method of scanning a fingerprint. A system according to the invention may have (a) an imaging surface capable of receiving a finger, (b) a rotatable disk, the disk having a pivot-location about which the disk rotates, (c) an ultrasound transducer joined to the disk and capable of providing information corresponding to a fingerprint of the finger, (d) a disk driver capable of rotating the disk in order to cause the transducer to move along a substantially circular path, (e) a linear driver capable of moving the pivot-location linearly, (f) a measurer capable of measuring linear positions of the pivot-location and arcuate positions of the transducer; and (g) a coupler capable of producing sets of coupled information, each set comprising one linear position of the pivot-location, one arcuate position of the transducer and information produced from the transducer at the pivot-location and arcuate position.

Abstract: A method of forming a piezoelectric device is disclosed. In one such method, a coating material is formed. The coating material has a piezoelectric precursor. The coating material is applied to a first electrode. The precursor is heated to a temperature that is above the Curie temperature of the precursor, but below the melting temperature of the precursor. While the precursor is above its Curie temperature, a voltage is applied across the precursor. While the voltage is applied across the precursor, the temperature of the precursor is reduced to below the Curie temperature.

Abstract: The invention includes a system and a method of scanning fingerprints. A system may include an imaging surface, an ultrasound transducer, a probe arm joined to the transducer, a driver capable of moving the pivot location linearly and the transducer arcuately, a measurer capable of measuring linear and arcuate positions of the transducer, and a coupler capable of coupling information corresponding to linear and arcuate positions of the transducer with information from the transducer.