Patent application number | Description | Published |
20150066625 | INCENTIVES FOR ACKNOWLEDGING PRODUCT ADVERTISING WITHIN MEDIA CONTENT - A cloud-based service provides incentives for users of devices such as game consoles, personal computers, smartphones, and the like to explicitly acknowledge product placements within media content by offering rewards to the users that may be obtained by performing certain user actions as the media content is being consumed and rendered on the device. The user actions may comprise clicking a button or performing a gesture to an input device, for example, at particular times in the media content presentation in which a branded product is shown, mentioned, or used. A client component on the device captures the user actions as signals which are sent to the service which compares the signals against known reward criteria. If reward criteria are met by the user actions, the service can provide either digital or physical rewards to the user. | 03-05-2015 |
20150072775 | ACHIEVEMENT REPLAY AND FRAUD DETECTION - Devices including gaming consoles, personal computers, tablets, smartphones, and the like may be configured with a client for capturing signals which are representative of user interactions with applications such as games. The captured signals are sent to a cloud-based service for archival storage. The service can subsequently replay the archived captured signals and compare them against known rules to determine if an achievement obtained by a user during interaction with the application was legitimately obtained in compliance with the rules or obtained improperly, for example by cheating or exploiting a bug in the application to falsely trigger the achievement. If the achievement is invalid, then the service can retroactively revoke the achievement. Alternatively, the service can replay the captured signals and detect instances in which an achievement was validly achieved but not properly acknowledged. The achievement can then be awarded or unlocked for the user retroactively. | 03-12-2015 |
Patent application number | Description | Published |
20100112723 | MICROFLUIDIC APPARATUS AND METHODS FOR PERFORMING BLOOD TYPING AND CROSSMATCHING - Microfluidic cartridges for agglutination reactions are provided. The cartridges include a microfluidic reaction channel with at least two intake channels, one for an antigen-containing fluid and the other for an antibody-containing fluid, conjoined to a reaction channel modified by incorporation of a downstream flow control channel. At low Reynolds Number, the two input streams layer one on top of the other in the reaction channel and form a flowing, unmixed horizontally-stratified laminar fluid diffusion (HLFD) interface for an extended duration of reaction. Surprisingly, the design, surface properties, and flow regime of microfluidic circuits of the present invention potentiate detection of antibody mediated agglutination at the stratified interface. Antigen:antibody reactions involving agglutination potentiated by these devices are useful in blood typing, in crossmatching for blood transfusion, and in immunodiagnostic agglutination assays, for example. | 05-06-2010 |
20120156112 | MICROFLUIDIC CLINICAL ANALYZER - A microfluidic cartridge including on-board dry reagents and microfluidic circuitry for determining a clinical analyte or analytes from a few microliters of liquid sample; with docking interface for use in a host workstation, the workstation including a pneumatic fluid controller and spectrophotometer for monitoring analytical reactions in the cartridge. | 06-21-2012 |
20120156750 | COMPOSITIONS AND METHODS FOR DEHYDRATED STORAGE OF ON-BOARD REAGENTS IN MICROFLUIDIC DEVICES - Manufacturing methods and compositions are described for production of self-contained microfluidic cartridge devices with on-board reagents for molecular biological testing. Sensitive reagents are stored in dry form without lyophilization or freezing, and reconstituted at the point of use with either a biological sample or a sample eluate at the point of use. Manufacturing methods include sheet and roll fabrication processes where the reagents are printed in place and sealed within individual microfluidic cartridges before gel vitrification. | 06-21-2012 |
20120177543 | MICROFLUIDIC REACTOR SYSTEM - A compact device for operatively coupling a solid planar substrate, for example a glass slide, to a microfluidic circuit and performing a reaction or reactions on organic matter bound to the face of the planar substrate. Typical reactions include binding, staining and/or labeling reactions. In use, a sealed reaction chamber is formed, the chamber enclosing the organic matter and at least a part of the solid substrate. Headspace in the sealed chamber between the solid substrate is generally of microfluidic dimensions, and diaphragm pump members are used to inject, exchange and/or mix the fluids in the chamber. | 07-12-2012 |
20130130262 | SAMPLE-TO-ANSWER MICROFLUIDIC CARTRIDGE - A microfluidic cartridge and methods for performing a diagnostic, molecular or biochemical assay thereon, where all dried and/or liquid reagents necessary for the assay are contained in the cartridge and the assay requires only the addition of sample. Pneumohydraulic features, chamber and diaphragm technologies are introduced for overcoming the problems of bubble interference and reagent washout during operation of a microfluidic cartridge. The cartridges are inserted into a host instrument for performance of an assay and the cartridge is supplied as a consumable. | 05-23-2013 |
20130142708 | MICROFLUIDIC APPARATUS AND METHODS FOR PERFORMING BLOOD TYPING AND CROSSMATCHING - Microfluidic cartridges for agglutination reactions are provided. The cartridges include a microfluidic reaction channel with at least two intake channels, one for an antigen-containing fluid and the other for an antibody-containing fluid, conjoined to a reaction channel modified by incorporation of a downstream flow control channel. At low Reynolds Number, the two input streams layer one on top of the other in the reaction channel and form a flowing, unmixed horizontally-stratified laminar fluid diffusion (HLFD) interface for an extended duration of reaction. Surprisingly, the design, surface properties, and flow regime of microfluidic circuits of the present invention potentiate detection of antibody mediated agglutination at the stratified interface. Antigen:antibody reactions involving agglutination potentiated by these devices are useful in blood typing, in crossmatching for blood transfusion, and in immunodiagnostic agglutination assays, for example. | 06-06-2013 |
Patent application number | Description | Published |
20100053121 | SYSTEM AND APPARATUS FOR DEFLECTION OPTICS - Various embodiments of the present invention provide for systems and apparatuses directed toward using a contact lens and deflection optics to processes display information and non-display information. In one embodiment of the invention, a contact lens assembly is provided, comprising: a substrate including optical path optics and configured to receive a display information optical path emitted from a display and a non-display information optical path not emitted from the display. The optical path optics of the substrate is configured to be partially deflective such that the non-display information optical path is transmitted to a human visual system without deflection, and the display information optical path is transmitted to the human visual system with deflection. | 03-04-2010 |
20100053549 | METHOD AND APPARATUS FOR CONSTRUCTING A CONTACT LENS WITH OPTICS - Various embodiments of the present invention provide systems, methods, and processes for constructing a contact lens. In one embodiment, a contact lens assembly is provided, comprising: a curved polymer polarizer with an aperture; a lenslet disposed inside the aperture, wherein the lenslet enables imaging near objects; and a filter attached to the lenslet. In further embodiments, a method for fabricating a flexible contact lens is provided, comprising: fabricating an element having an extrusion; providing a front concave mold, wherein the front mold has an intrusion to accommodate the extrusion of the optical element; affixing the extrusion of the optical element to the intrusion of the front mold; attaching a back convex mold to the front concave mold, thereby forming a mold cavity; and filling the mold cavity with a pre-polymerized liquid, whereby upon polymerization, the pre-polymerized liquid forms the flexible contact lens and the optical element is partially encapsulated within the lens. | 03-04-2010 |
20100149618 | SYSTEM AND APPARATUS FOR PIXEL MATRIX SEE-THROUGH DISPLAY PANELS - Various embodiments of the present invention provide systems and apparatus directed toward using a contact lens and deflection optics to process display information and non-display information. In one embodiment of the invention, a display panel assembly is provided, comprising: a transparent substrate that permits light to pass through substantially undistorted; a two-dimensional display panel disposed on the transparent substrate, wherein the display panel comprises pixel elements sufficiently spaced with respect to each other to allow light to pass through the display panel assembly; and at least one filter disposed on at least one pixel element. The filter may comprise a bandpass filter that reduces bandwidths of emitted light from the pixel element, or a polarizer filter that limits polarity of emitted light from the pixel element. | 06-17-2010 |
20100265163 | SYSTEM AND APPARATUS FOR DISPLAY PANELS - Various embodiments of the present invention provide for systems and apparatuses directed toward using a display panel to processes display information and non-display information. Further embodiments, utilize a display panel in conjunction with a contact lens assembly configured to process the display information. In one embodiment of the invention, a display system is provided, comprising: a display panel disposed on a head-borne apparatus such that when a viewer is wearing the head-borne apparatus, the display panel is positioned in close proximity to an eye of the viewer such that the eye is unable to focus on the display panel unassisted; and a contact lens having focusing optics that assists the eye in focusing on the display panel. Within the display system, the display panel has pixels and is configured without focusing optics, thereby allowing light emitted by the pixels to diverge in an unfocused manner. | 10-21-2010 |
20110096100 | SYSTEM AND APPARATUS FOR SEE-THROUGH DISPLAY PANELS - Various embodiments of the present invention provide for systems and apparatus directed toward using a contact lens and deflection optics to process display information and non-display information. In one embodiment of the invention, a display panel assembly is provided, comprising: a transparent substrate that permits light to pass through substantially undistorted; a reflector disposed on the transparent substrate; and a display panel aimed toward the reflector and substantially away from a human visual system, wherein the reflector reflects light emitted from the display panel toward the human visual system. The reflector may comprise a narrow band reflector or a polarization reflector. | 04-28-2011 |
20120147320 | METHOD AND APPARATUS FOR CONSTRUCTING A CONTACT LENS WITH OPTICS - Various embodiments of the present invention provide systems, methods, and processes for constructing a contact lens. In one embodiment, a contact lens assembly is provided, comprising: a curved polymer polarizer with an aperture; a lenslet disposed inside the aperture, wherein the lenslet enables imaging near objects; and a filter attached to the lenslet. In further embodiments, a method for fabricating a flexible contact lens is provided, comprising: fabricating an element having an extrusion; providing a front concave mold, wherein the front mold has an intrusion to accommodate the extrusion of the optical element; affixing the extrusion of the optical element to the intrusion of the front mold; attaching a back convex mold to the front concave mold, thereby forming a mold cavity; and filling the mold cavity with a pre-polymerized liquid, whereby upon polymerization, the pre-polymerized liquid forms the flexible contact lens and the optical element is partially encapsulated within the lens. | 06-14-2012 |
20150049300 | METHOD AND APPARATUS FOR CONSTRUCTING A CONTACT LENS WITH OPTICS - Various embodiments of the present invention provide systems, methods, and processes for constructing a contact lens. In one embodiment, a contact lens assembly is provided, comprising: a curved polymer polarizer with an aperture; a lenslet disposed inside the aperture, wherein the lenslet enables imaging near objects; and a filter attached to the lenslet. In further embodiments, a method for fabricating a flexible contact lens is provided, comprising: fabricating an element having an extrusion; providing a front concave mold, wherein the front mold has an intrusion to accommodate the extrusion of the optical element; affixing the extrusion of the optical element to the intrusion of the front mold; attaching a back convex mold to the front concave mold, thereby forming a mold cavity; and filling the mold cavity with a pre-polymerized liquid, whereby upon polymerization, the pre-polymerized liquid forms the flexible contact lens and the optical element is partially encapsulated within the lens. | 02-19-2015 |
20150084999 | SYSTEM AND APPARATUS FOR SEE-THROUGH DISPLAY PANELS - Various embodiments of the present invention provide for systems and apparatus directed toward using a contact lens and deflection optics to process display information and non-display information. In one embodiment of the invention, a display panel assembly is provided, comprising: a transparent substrate that permits light to pass through substantially undistorted; a reflector disposed on the transparent substrate; and a display panel aimed toward the reflector and substantially away from a human visual system, wherein the reflector reflects light emitted from the display panel toward the human visual system. The reflector may comprise a narrow band reflector or a polarization reflector. | 03-26-2015 |
Patent application number | Description | Published |
20090027748 | MEMS Oscillator Having A Combined Drive Coil - A MEMS oscillator, such as a MEMS scanner, has an improved and simplified drive scheme and structure. Drive impulses may be transmitted to an oscillating mass via torque through the support arms. For multi-axis oscillators drive signals for two or more axes may be superimposed by a driver circuit and transmitted to the MEMS oscillator. The oscillator responds in each axis according to its resonance frequency in that axis. The oscillator may be driven resonantly in some or all axes. Improved load distribution results in reduced deformation. A simplified structure offers multi-axis oscillation using a single moving body. Another structure directly drives a plurality of moving bodies. Another structure eliminates actuators from one or more moving bodies, those bodies being driven by their support arms. | 01-29-2009 |
20090028199 | LASER PROJECTION TEMPERATURE COMPENSATION - The temperature of a laser diode changes in response to video content across a line of a displayed image, and the radiance changes as a function of temperature. An adaptive model estimates the temperature of the laser diode based on prior drive current values. For each displayed pixel, diode drive current is determined from the estimated diode temperature and a desired radiance value. A feedback circuit periodically measures the actual temperature and updates the adaptive model. | 01-29-2009 |
20090067057 | BURIED NUMERICAL APERTURE EXPANDER HAVING TRANSPARENT PROPERTIES - Briefly, in accordance with one or more embodiments, a buried numerical aperture expander may be utilized to provide a head-up or virtual display at a larger field of view without requiring a larger amount of space, larger sized display, or larger sized optics. The buried numerical aperture expander is capable of selectively reflecting light emanating from a display such that the reflected light is expanded into a larger field of view, while simultaneously allowing other light to be transmitted through the buried numerical aperture expander without expansion so that the buried numerical aperture expander may be deployed in conjunction with a windshield or window without adversely affecting the ability to see through buried numerical aperture expander. | 03-12-2009 |
20090134319 | Scanned Beam Display and Method of Operating - A MEMS oscillator, such as a MEMS scanner, has an improved and simplified drive scheme and structure. Drive impulses may be transmitted to an oscillating mass via torque through the support arms. For multi-axis oscillators drive signals for two or more axes may be superimposed by a driver circuit and transmitted to the MEMS oscillator. The oscillator responds in each axis according to its resonance frequency in that axis. The oscillator may be driven resonantly in some or all axes. Improved load distribution results in reduced deformation. A simplified structure offers multi-axis oscillation using a single moving body. Another structure directly drives a plurality of moving bodies. Another structure eliminates actuators from one or more moving bodies, those bodies being driven by their support arms. | 05-28-2009 |