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Airey
Daniel A. Airey, Woburn, MA US
| Patent application number | Description | Published |
|---|---|---|
| 20080236254 | DYNAMIC RECIPROCATING-BOB RHEOMETRY - A sensor for making rheological measurements takes the form of a ferromagnetic bob alternately driven through a sample fluid in opposite directions by magnetic force from two alternately driven coils. The bob's position affects the mutual inductance between the coils, so it can be inferred by sensing the signal that current flowing in one coil induces in the other, and rheological properties are determined from the relationships among the bob's motion, the coil current, and the sensor geometry. Some such measurements' accuracies are enhanced by computing bob acceleration and suppressing inertial effects thereby detected. | 10-02-2008 |
John M. Airey, Mountain View, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20080284786 | Display System Having Floating Point Rasterization and Floating Point Framebuffering - A floating point rasterization and frame buffer in a computer system graphics program. The rasterization, fog, lighting, texturing, blending, and antialiasing processes operate on floating point values. In one embodiment, a 16-bit floating point format consisting of one sign bit, ten mantissa bits, and five exponent bits (s10e5), is used to optimize the range and precision afforded by the 16 available bits of information. In other embodiments, the floating point format can be defined in the manner preferred in order to achieve a desired range and precision of the data stored in the frame buffer. The final floating point values corresponding to pixel attributes are stored in a frame buffer and eventually read and drawn for display. The graphics program can operate directly on the data in the frame buffer without losing any of the desired range and precision of the data. | 11-20-2008 |
| 20100079471 | Display System Having Floating Point Rasterization and Floating Point Framebuffering - A floating point rasterization and frame buffer in a computer system graphics program. The rasterization, fog, lighting, texturing, blending, and antialiasing processes operate on floating point values. In one embodiment, a 16-bit floating point format consisting of one sign bit, ten mantissa bits, and five exponent bits (s10e5), is used to optimize the range and precision afforded by the 16 available bits of information. In other embodiments, the floating point format can be defined in the manner preferred in order to achieve a desired range and precision of the data stored in the frame buffer. The final floating point values corresponding to pixel attributes are stored in a frame buffer and eventually read and drawn for display. The graphics program can operate directly on the data in the frame buffer without losing any of the desired range and precision of the data. | 04-01-2010 |
| 20110169842 | DISPLAY SYSTEM HAVING FLOATING POINT RASTERIZATION AND FLOATING POINT FRAMEBUFFERING - A floating point rasterization and frame buffer in a computer system graphics program. The rasterization, fog, lighting, texturing, blending, and antialiasing processes operate on floating point values. In one embodiment, a 16-bit floating point format consisting of one sign bit, ten mantissa bits, and five exponent bits (s10e5), is used to optimize the range and precision afforded by the 16 available bits of information. In other embodiments, the floating point format can be defined in the manner preferred in order to achieve a desired range and precision of the data stored in the frame buffer. The final floating point values corresponding to pixel attributes are stored in a frame buffer and eventually read and drawn for display. The graphics program can operate directly on the data in the frame buffer without losing any of the desired range and precision of the data. | 07-14-2011 |
John Milligan Airey, Mountain View, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20110134119 | Method and System For Displaying Animation With An Embedded System Graphics API - An animation file player can display animation files with an embedded system graphics application programming interface (graphics API). In an example implementation, an animation file comprises a Flash® animation file such as, a Shockwave Flash® animation file, and the embedded system graphics API comprises an OpenGL®|ES graphics API. The present invention is not intended to be so limited, and other types of animation files and embedded system graphics APIs can be used. | 06-09-2011 |
Peter Airey, Yokohama-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20110188348 | METHOD AND APPARATUS FOR MONITORING ACOUSTIC ACTIVITY IN A SUBSURFACE FORMATION - A method and apparatus is disclosed for monitoring microseismic activity in a formation. The method and apparatus include placing a tool string having a shuttle including a sensor thereon in a stimulation well, and activating the shuttle to acoustically couple the sensor to an inner surface of a casing. The sensor is acoustically decoupled from the tool string. Fluid is then injected into the formation via the tool string. The sensor is reengaged with the tool string. The tool string may then be removed from the stimulation well or moved to another position along the wellbore. | 08-04-2011 |
Peter Lewis Airey, New South Wales AU
| Patent application number | Description | Published |
|---|---|---|
| 20090230295 | MEASUREMENT OF HYDRAULIC CONDUCTIVITY USING A RADIOACTIVE OR ACTIVATABLE TRACER - A method of determining the distance, from a reference point, of a tracer emitting radiation comprising a first component emitted at a first known energy level and a second component emitted at a second known energy level, the intensity of a penetrating portion of the first component that penetrates a substance between the tracer and the reference point and the intensity of a penetrating portion of the second component of the radiation that penetrates the substance being a function of the rate of gamma radiation emission of the tracer as well as of the distance of the tracer from the reference point, the method comprising: a) measuring the intensity of the first penetrating portion and the intensity of the second penetrating portion; b) determining the ratio of the intensity of the first penetrating portion to the intensity of the second penetrating portion; and c) determining the distance of the tracer from the reference point. | 09-17-2009 |
Stephen Philip Airey, Katwijk NL
| Patent application number | Description | Published |
|---|---|---|
| 20110019022 | ACTIVE PIXEL SENSOR APPARATUS FOR USE IN A STAR TRACKER DEVICE - The invention relates to an active-pixel-sensor (APS) apparatus for use in a star tracker device including an imager chip, said imager chip comprising an array of photo-diodes operating as optical pixels, and a logic circuit. The logic circuit is configured for reading out a pixel signal depending on an amount of light irradiated during a predetermined integration time and resetting the optical pixel upon termination of the predetermined integration time processing the pixel signals and to output the modified signals and for performing a non-destructive readout of the pixel signal during the integration time In order to distinguish Single-Event-Upset (SEU) contributions to the signal from star signal contributions, it is proposed to further configure the logic circuit to detect whether or not a discontinuity has occurred in the pixel signal during the integration time, and to modify the signal depending on the result of this detection. | 01-27-2011 |