Larson, AZ
Alain Larson, Tucson, AZ US
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20090017491 | APPARATUS AND METHOD FOR BIOLOGICAL SAMPLE PROCESSING - An apparatus and method are described that achieve independent and simultaneous processing of a plurality of substrate-supported biological samples. In one embodiment, substrate holders arranged in a minor arc are independently moveable between a processing position and an access position, and reagents are delivered to substrates held in the substrate holders through a nozzle plate that moves along the arc of substrate holders. The disclosed apparatus and method are particularly suited for implementation of lean processing of biological samples. | 01-15-2009 |
Alain Larson, Larson, AZ US
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20150031073 | APPARATUS AND METHOD FOR BIOLOGICAL SAMPLE PROCESSING - An apparatus and method are described that achieve independent and simultaneous processing of a plurality of substrate-supported biological samples. In one embodiment, substrate holders arranged in a minor arc are independently moveable between a processing position and an access position, and reagents are delivered to substrates held in the substrate holders through a nozzle plate that moves along the arc of substrate holders. The disclosed apparatus and method are particularly suited for implementation of lean processing of biological samples. | 01-29-2015 |
Alain Larson, Marana, AZ US
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20080235055 | Laboratory instrumentation information management and control network - Described are techniques for identifying samples processed in a laboratory using harmonized identifier. A case identifier identifying a patient from whom a specimen is collected is determined. A specimen identifier associated with the specimen is determined. An entry for the specimen is recorded in a data store where the entry being associated with the case identifier and the specimen identifier. A harmonized specimen identifier including the case identifier and the specimen identifier is formed. The specimen is labeled with the harmonized specimen identifier. | 09-25-2008 |
Alan A. Larson, Scottsdale, AZ US
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20110044436 | Personal Notification And Broadcasting - While various communication systems permit one-on-one communication between users, it is difficult to contact multiple users at a time with little hassle. The personal notification and broadcasting system provides a solution for contacting a plurality of contacts in emergency and non-emergency contexts. The system receives a call from a caller attempting to reach the plurality of contacts. The system compares an identifier associated with the caller to identifiers stored in a database to authenticate identity of the caller. Responsive to a positive authentication of the identity of the caller, the system identifies which contacts on a contact list to be reached based on information provided by the caller. In some embodiments, the system retrieves from a database stored contact information for the identified contacts. The system contacts the identified plurality of contacts and selects an action to take (e.g., arranging a conference call, broadcasting a message from the caller, etc.) from a one or more actions, wherein the action to take is selected based on the identifier. | 02-24-2011 |
Brent D. Larson, Phoenix, AZ US
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20150160457 | CONFORMAL CAPABLE HEAD-UP DISPLAY - A system and method of displaying a conformal-capable head-up display image is provided. A pre-distorted right-eye image and a pre-distorted left-eye image are separately generated and projected toward a windscreen. The pre-distorted right-eye image is reflected off of the windscreen to supply a reflected right eye image to a right eyebox, and the pre-distorted left-eye image is reflected off of the windscreen to supply a reflected left eye image to a left eyebox. The reflected right-eye image and the reflected left-eye image are each non-distorted images. | 06-11-2015 |
20150234050 | POLARIZED TRACKER SYSTEM AND METHOD FOR TRACKING MOVEMENT - A system and method are provided for leveraging emitted polarized electromagnetic radiation as a means to track relative orientation and position of an object with regard to another object. Six basic degrees of freedom including three angular and three translational are determined based on making multiple polarization-based measurements and then determining the corresponding geometry that would yield those measurements. | 08-20-2015 |
Gerald T. Larson, Phoenix, AZ US
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20080276555 | Foundation for modular structures - An improvement for building perimeter-wall foundations is created by attaching galvanized-steel corrugated panels to an in-place structure. The freely hanging bottom edges of the panels, which have continuous deformation specific to the enhancement of bearing and anchorage within concrete, are cast in-situ with footing concrete, so becoming a cast-in-place perimeter-wall foundation, capable of residential-scale bearing and shear loadings. A load bearing pier support is included for load bearing supporting large or multi-unit modular structures. | 11-13-2008 |
Gregory James Larson, Vail, AZ US
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20090193961 | Apparatus, System, and Method for Filamentary Composite Lattice Structure Manufacturing - An apparatus, system, and method are disclosed for the manufacture of composite lattice structures comprising a weaving mechanism | 08-06-2009 |
Jeffrey S. Larson, Tucson, AZ US
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20150300780 | ROCKET CLUSTER DIVERT AND ATTITUDE CONTROL SYSTEM - A flight vehicle includes a nose portion, a fuselage retaining structure aft of the nose portion, and an axial motor for expelling axial thrust along a longitudinal axis of the flight vehicle. Radial motors are coupled to the retaining structure and axisymmetrically arranged about the axial motor. Each radial motor is configured to expel radial thrust radially outwardly in respect to the flight vehicle. Roll thrusters are operatively coupled with the radial motors and coupled to the fuselage retaining structure. The roll thrusters are configured to provide a roll moment of the flight vehicle about a central longitudinal axis of the flight vehicle. Ejectors are operatively coupled to the radial motors, and a controller is operatively coupled to the radial motors and the ejectors. The controller is configured to selectively fire and selectively eject the radial motors to maintain relative centering of a center of gravity of the flight vehicle. | 10-22-2015 |
Jerry B. Larson, Gilbert, AZ US
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20100314526 | PANEL SPACER - A panel spacer presents a somewhat spherical body with pyramidal indents in the upper and lower hemispheres separated by a relatively wide equator. The spacers are formed from a conventional resilient polymeric material with the indents providing easy handling and preventing rolling of the spacers when in place for example in a rail groove. In an alternate embodiment of the panel spacers the hemispheres are rotated approximately 27½° along the spacer axis. | 12-16-2010 |
Lary R. Larson, Gold Canyon, AZ US
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20090308169 | PRESSURE SENSOR CONFIGURATIONS FOR IMPLANTABLE MEDICAL ELECTRICAL LEADS - An implantable pressure sensor, which may be incorporated within an implantable medical electrical lead, includes an insulative sidewall, which contains a gap capacitor and an integrated circuit. The insulative sidewall of the pressure sensor includes a pressure sensitive diaphragm portion, and the gap capacitor includes a first electrode plate, which is attached to an interior surface of the diaphragm portion of the sidewall, and a second electrode plate, which is spaced apart from the first electrode plate and coupled to the integrated circuit, which is coupled, through the sidewall, to a supply contact and a ground contact. A conductive layer extends over one of the interior surface of the diaphragm portion of the sidewall and an exterior surface of the diaphragm portion; and the conductive layer is coupled to the ground contact to either shield or ground the first electrode plate. | 12-17-2009 |
20100314149 | HERMETICALLY-SEALED ELECTRICAL CIRCUIT APPARATUS - Hermetically-sealed electrical circuit apparatus and methods for constructing such apparatus using one or more seal portions. | 12-16-2010 |
20100315110 | HERMETICITY TESTING - Electrical circuit apparatus and methods including hermeticity testing structures for testing the hermeticity of the electrical circuit apparatus. | 12-16-2010 |
20140374145 | HERMETICALLY-SEALED ELECTRICAL CIRCUIT APPARATUS - Hermetically-sealed electrical circuit apparatus and methods for constructing such apparatus using one or more seal portions. | 12-25-2014 |
Melissa Larson, Gilbert, AZ US
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20150007374 | TRANSFERABLE GARMENT ADDITION TO SWIMWEAR - A transferable garment, for seamlessly transforming an existing bikini swimsuit to a tankini swimsuit, comprising a front side, a back side seamlessly connected to the front side, a torso portion having a top portion and a bottom portion, the front side and the back side forming the torso portion and the torso portion being sized to cover at least a portion of a wearer's torso, an upper front section of the front side, an upper rear section portion of the back side, a first securing mechanism seamlessly connected to the upper front section for securing the torso portion to necks straps of the existing bikini swimsuit, a second securing mechanism seamlessly connected to the upper rear section for securing the torso portion to back straps of the existing bikini swimsuit. The first securing mechanism and the second securing mechanism temporarily secures the torso portion to the existing bikini swimsuit. | 01-08-2015 |
Patrick Larson, Scottsdale, AZ US
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20120283800 | Neural Stimulator System - An implantable neural stimulator includes one or more electrodes, a dipole antenna, and one or more circuits and does not include an internal power source. The one or more electrodes are configured to apply one or more electrical pulses to neural tissue. The dipole antenna is configured to receive an input signal containing electrical energy utilizing electrical radiative coupling (for example, in the frequency range form 300 MHz to 8 GHz). The one or more circuits are configured to create one or more electrical pulses using the electrical energy contained in the input signal; supply the electrical pulses to the electrodes such the electrical pulses are applied to neural tissue; generate a stimulus feedback signal; and send the feedback to the dipole antenna to transmit to the second antenna through electrical radiative coupling. | 11-08-2012 |
20120330384 | REMOTE CONTROL OF POWER OR POLARITY SELECTION FOR A NEURAL STIMULATOR - An implantable neural stimulator includes one or more electrodes, at least one antenna, and one or more circuits connected to the at least one antenna. The one or more electrodes are configured to apply one or more electrical pulses to excitable tissue. The antenna is configured to receive one or more input signals containing polarity assignment information and electrical energy, the polarity assignment information designating polarities for the electrodes. The one or more circuits are configured to control an electrode interface such that the electrodes have the polarities designated by the polarity assignment information; create one or more electrical pulses using the electrical energy contained in the input signal; and supply the one or more electrical pulses to the one or more electrodes through the electrode interface so that the one or more electrical pulses are applied according to the polarities designated by the polarity assignment information. | 12-27-2012 |
20130066400 | MICROWAVE FIELD STIMULATOR - A system includes a controller module, which includes a storage device, a controller, a modulator, and one or more antennas. The storage device is stored with parameters defining a stimulation waveform. The controller is configured to generate, based on the stored parameters, an output signal that includes the stimulation waveform, wherein the output signal additionally includes polarity assignments for electrodes in an implantable, passive stimulation device. The modulator modulates a stimulus carrier signal with the output signal to generate a transmission signal. The one or more antennas transmit the transmission signal to the implantable, passive stimulation device such that the implantable, passive stimulation device uses energy in the transmission signal for operation, sets the polarities for the electrodes in the implantable, passive stimulation device based on the encoded polarity assignments, generates electrical pulses using the stimulation waveform, and applies the electrical pulses to excitable tissue. | 03-14-2013 |
20140058480 | REMOTE CONTROL OF POWER OR POLARITY SELECTION FOR A NEURAL STIMULATOR - A system, including: an implantable neural stimulator including electrodes, at least one antenna and an electrode interface; a radio-frequency (RF) pulse generator module comprising an antenna module configured to send an input signal to the antenna in the implantable neural stimulator through electrical radiative coupling, the input signal containing electrical energy and polarity assignment information that designates polarity assignments of the electrodes in the implantable neural stimulator; and wherein the implantable neural stimulator is configured to: control the electrode interface such that the electrodes have the polarity assignments designated by the polarity assignment information, create one or more electrical pulses suitable for modulation of neural tissue using the electrical energy contained in the input signal, and supply the electrical pulses to the electrodes through the electrode interface such that the electrodes apply the electrical pulses to the neural tissue with the polarity assignments designated by the polarity assignment information. | 02-27-2014 |
20140058481 | NEURAL STIMULATOR SYSTEM - An implantable neural stimulator method for modulating excitable tissue in a patient including: implanting a neural stimulator within the body of the patient such that one or more electrodes of the neural stimulator are positioned at a target site adjacent to or near excitable tissue; generating an input signal with a controller module located outside of, and spaced away from, the patient's body; transmitting the input signal to the neural stimulator through electrical radiative coupling; converting the input signal to electrical pulses within the neural stimulator; and applying the electrical pulses to the excitable tissue sufficient to modulate said excitable tissue. | 02-27-2014 |
Patrick Larson, Scottsdaale, AZ US
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20140031837 | Implantable Lead - An implantable wireless lead includes an enclosure, the enclosure housing: one or more electrodes configured to apply one or more electrical pulses to a neural tissue; a first antenna configured to: receive, from a second antenna and through electrical radiative coupling, an input signal containing electrical energy, the second antenna being physically separate from the implantable neural stimulator lead; one or more circuits electrically connected to the first antenna, the circuits configured to: create the one or more electrical pulses suitable for stimulation of the neural tissue using the electrical energy contained in the input signal; and supply the one or more electrical pulses to the one or more electrodes, wherein the enclosure is shaped and arranged for delivery into a subject's body through an introducer or a needle. | 01-30-2014 |
Tony R. Larson, Tucson, AZ US
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20090009239 | Low glitch offset correction circuit for auto-zero sensor amplifiers and method - An instrumentation amplifier includes first ( | 01-08-2009 |
20100007217 | Minimum loss and wiring circuit and method for paralleling hot swap controllers - A hot swap controller includes a shunt resistor ( | 01-14-2010 |
20100019842 | Low-noise, wide offset range, programmable input offset amplifier front end and method - A programmable offset amplifier includes first (M | 01-28-2010 |
20130257507 | Analog Multiplier and Method for Current Shunt Power Measurements - Multiplier circuitry includes first multiplier circuit including a first transistor having an emitter coupled to a first conductor, a base coupled to a second conductor, and a collector coupled to a third conductor, a second transistor having an emitter coupled to the first conductor, a base coupled to a fourth conductor, and a collector coupled to a fifth conductor, a third transistor having an emitter coupled to the second conductor and a base and collector coupled to a supply voltage, and a fourth transistor having an emitter coupled to the fourth conductor and a base and collector coupled to the supply voltage. Chopper includes a first switch to provide a chopped differential signal between the second and fourth conductors and a second switch for un-chopping a first differential output signal produced between the third and fifth conductors to provide an un-chopped differential output signal between the third and fifth conductors. | 10-03-2013 |