Stainer
Brian Stainer, Zurich CH
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20100161233 | Time Reverse Reservoir Localization - A method and system for processing synchronous array seismic data includes acquiring synchronous passive seismic data from a plurality of sensors to obtain synchronized array measurements. A reverse-time data process is applied to the synchronized array measurements to obtain a plurality of dynamic particle parameters associated with subsurface locations. These dynamic particle parameters are stored in a form for display. Maximum values of the dynamic particle parameters may be interpreted as reservoir locations. The dynamic particle parameters may be particle displacement values, particle velocity values, particle acceleration values or particle pressure values. The sensors may be three-component sensors. Zero-phase frequency filtering of different ranges of interest may be applied. The data may be resampled to facilitate efficient data processing. | 06-24-2010 |
Derek Gregory Stainer, San Diego, CA US
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20160095555 | GRAPHICAL TECHNIQUE FOR DETECTING CONGESTIVE HEART FAILURE - The invention provides a system to better detect the onset of congestive heart failure (CHF). The system consists of two primary components—the CHF Index Graph (CHFIG) and a body-worn sensor for measuring the necessary parameters—that correctly measure and analyze a set of parameters related to CHF. The CHFIG typically consists of 7 or 8 unique axes, each corresponding to a different CHF-related parameter. Each axis is normalized and scaled so that the plotted values trend outwards as a patient's trajectory towards CHF worsens. Thus, the area of a region constructed from the plotted values of the parameters increases as the values move further away from the center of the graph; this indicates the patient is trending towards CHF. Conversely, a healthy patient's parameters will be clustered relatively close to the center of the graph, creating a region with a much smaller area. | 04-07-2016 |
20160095556 | GRAPHICAL TECHNIQUE FOR DETECTING CONGESTIVE HEART FAILURE - The invention provides a system to better detect the onset of congestive heart failure (CHF). The system consists of two primary components—the CHF Index Graph (CHFIG) and a body-worn sensor for measuring the necessary parameters—that correctly measure and analyze a set of parameters related to CHF. The CHFIG typically consists of 7 or 8 unique axes, each corresponding to a different CHF-related parameter. Each axis is normalized and scaled so that the plotted values trend outwards as a patient's trajectory towards CHF worsens. Thus, the area of a region constructed from the plotted values of the parameters increases as the values move further away from the center of the graph; this indicates the patient is trending towards CHF. Conversely, a healthy patient's parameters will be clustered relatively close to the center of the graph, creating a region with a much smaller area. | 04-07-2016 |
Matthew Stainer, Goleta GB
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20100295036 | STRUCTURE FOR MAKING SOLUTION PROCESSED ELECTRONIC DEVICES - There is provided a process for forming an organic electronic device wherein a TFT substrate having a non-planar surface has deposited over that substrate a planarization layer such that a substantially planar substrate, or planarized substrate, is formed. A multiplicity of thin first electrode structures having a first thickness and having tapered edges with a taper angle of no greater than 75° are formed over the planarized substrate. A multiplicity of active layers is formed over the planarized substrate. Then a buffer layer is formed by liquid deposition of a composition comprising a buffer material in a first liquid medium. The buffer layer has a second thickness which is at least 20% greater than the first thickness. A chemical containment pattern defining pixel openings is then formed over the buffer layer. A composition comprising a first active material in a second liquid medium is deposited into at least a portion of the pixel openings. Then a second electrode is formed. | 11-25-2010 |
Matthew Stainer US
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20110081735 | PROCESS FOR FORMING ENCAPSULATED ELECTRONIC DEVICES - There is provided herein a process for forming an encapsulated electronic device. The device has active areas and sealing areas on a substrate. The process includes providing the substrate; forming a discontinuous pattern of a material having a first surface energy on at least a portion of the sealing areas; forming multiple active layers, where at least one active layer is formed by liquid deposition from a liquid medium having a surface energy greater than the first surface energy; providing an encapsulation assembly; and bonding the encapsulation assembly to the substrate in the sealing areas. Also provided are devices formed by the disclosed processes. | 04-07-2011 |
Mtthew Stainer, Goleta, CA US
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20110223340 | ELECTRO-FORM NOZZLE APPARATUS AND METHOD FOR SOLUTION COATING - An apparatus and method for liquid-phase coating of layers onto a substrate of an electronic device. Electo-form nozzles containing a body and disc are arranged in an array to perform multiple depositions on the substrate. A low solids mixture produces a very thin dried film of electronic materials. | 09-15-2011 |
Quentin Stainer, Montbonnot-St-Martin FR
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20150348607 | SELF-REFERENCED MAGNETIC RANDOM ACCESS MEMORY (MRAM) AND METHOD FOR WRITING TO THE MRAM CELL WITH INCREASED RELIABILITY AND REDUCED POWER CONSUMPTION - MRAM cell including a magnetic tunnel junction including a sense layer, a storage layer, a tunnel barrier layer and an antiferromagnetic layer exchange-coupling the storage layer such that the storage magnetization can be pinned when the antiferromagnetic layer is below a critical temperature and freely varied when the antiferromagnetic layer is heated at or above the critical temperature. The sense layer is arranged such that the sense magnetization can be switched from a first stable direction to another stable direction opposed to the first direction. The switched sense magnetization generates a sense stray field being large enough for switching the storage magnetization according to the switched sense magnetization, when the magnetic tunnel junction is heated at the writing temperature. The disclosure also relates to a method for writing to the MRAM cell with increased reliability and reduced power consumption. | 12-03-2015 |
Quentin Stainer, Grenoble FR
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20130148419 | SELF-REFERENCED MAGNETIC RANDOM ACCESS MEMORY ELEMENT COMPRISING A SYNTHETIC STORAGE LAYER - The present disclosure concerns a MRAM element comprising a magnetic tunnel junction comprising: a storage layer, a sense layer, and a tunnel barrier layer included between the storage layer and the sense layer; the storage layer comprising a first magnetic layer having a first storage magnetization; a second magnetic layer having a second storage magnetization; and a non-magnetic coupling layer separating the first and second magnetic layers such that the first storage magnetization is substantially antiparallel to the second storage magnetization; the first and second magnetic layers being arranged such that: at a read temperature the first storage magnetization is substantially equal to the second storage magnetization; and at a write temperature which is higher than the read temperature the second storage magnetization is larger than the first storage magnetization. The disclosed MRAM element generates a low stray field when the magnetic tunnel junction is cooled at a low temperature. | 06-13-2013 |