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2656results about How to "Improve dynamic range" patented technology

Field sequential light source modulation for a digital display system

ActiveUS20070035707A1Improve display qualityHigh resolutionTelevision system detailsStatic indicating devicesData streamImaging processing
A digital display system consists of an image modulator and multiple light modulators. An image processing system processes an incoming data stream, scans processed data to an image modulator and controls for the light modulators. Other user inputs and sensors are used to affect the processing and controls. The timing for scanning the processed data into the image modulators is controlled along with the intensity and wavelength of the light modulators. The display system may implement a spatial and temporal image processing, digital shutter controls, rolling shutter controls, sequential color output, adaptive dynamic sensor feedback, frame rate matching, motion compensated field sequencing and a variety of other techniques to produce a high quality display output. The resulting display has improved image consistency, enhanced color gamut, higher dynamic range and is better able to portray high motion content.
Field sequential light source modulation for a digital display system
Field sequential light source modulation for a digital display system
Field sequential light source modulation for a digital display system
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Owner:SAMSUNG ELECTRONICS CO LTD

Systems And Methods Of High Resolution Three-Dimensional Imaging

ActiveUS20100128109A1High resolutionImage resolutionElectromagnetic wave reradiationSteroscopic systemsWide fieldHigh resolution
Embodiments of the invention provide systems and methods for three-dimensional imaging with wide field of view and precision timing. In accordance with one aspect, a three-dimensional imaging system includes an illumination subsystem configured to emit a light pulse with a divergence sufficient to irradiate a scene having a wide field of view. A sensor subsystem is configured to receive over a wide field of view portions of the light pulse reflected or scattered by the scene and including: a modulator configured to modulate as a function of time an intensity of the received light pulse portion to form modulated received light pulse portions; and means for generating a first image corresponding to the received light pulse portions and a second image corresponding to the modulated received light pulse portions. A processor subsystem is configured to obtain a three-dimensional image based on the first and second images.
Systems And Methods Of High Resolution Three-Dimensional Imaging
Systems And Methods Of High Resolution Three-Dimensional Imaging
Systems And Methods Of High Resolution Three-Dimensional Imaging
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Owner:NLIGHT INC

Phased array metamaterial antenna system

ActiveUS6958729B1Reduce sidelobeIncrease amplitude performanceSimultaneous aerial operationsRadiating elements structural formsSolid substratePhased array
An efficient, low-loss, low sidelobe, high dynamic range phased-array radar antenna system is disclosed that uses metamaterials, which are manmade composite materials having a negative index of refraction, to create a biconcave lens architecture (instead of the aforementioned biconvex lens) for focusing the microwaves transmitted by the antenna. Accordingly, the sidelobes of the antenna are reduced. Attenuation across microstrip transmission lines may be reduced by using low loss transmission lines that are suspended above a ground plane a predetermined distance in a way such they are not in contact with a solid substrate. By suspending the microstrip transmission lines in this manner, dielectric signal loss is reduced significantly, thus resulting in a less-attenuated signal at its destination.
Phased array metamaterial antenna system
Phased array metamaterial antenna system
Phased array metamaterial antenna system
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Owner:LUCENT TECH INC

Image and light source modulation for a digital display system

ActiveUS20070035706A1Improve display qualityImprove consistencyTelevision system detailsProjectorsDisplay deviceSystem configuration
Image processing enhances display quality by controlling both the image modulator and the light sources to produce the best possible visual images. The image processing system utilizes a combination of user inputs, system configuration, design information, sensor feedback, pixel modulation information, and lighting control information to characterize the display environment on a per pixel basis. This per pixel characterization information is combined with one or more frames of the incoming real time display data. The image processing system processes each incoming pixel and produces a modified corresponding output pixel. Each pixel of each frame is processed accordingly. In addition to producing modified output pixels, the image processing system produces control information for the light sources. The light source control information can control individual lamps, tubes or LEDs, or can control a block or subset of the light sources. The resulting display has improved image consistency, enhanced color gamut, higher dynamic range and is better able to portray high motion content.
Image and light source modulation for a digital display system
Image and light source modulation for a digital display system
Image and light source modulation for a digital display system
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Owner:SAMSUNG ELECTRONICS CO LTD

Single Cell Nucleic Acid Detection and Analysis

ActiveUS20140155274A1High amplification efficiencyEasy to detectMicrobiological testing/measurementScreening processNucleic acid detectionNucleic acid sequencing
Single Cell Nucleic Acid Detection and Analysis
Single Cell Nucleic Acid Detection and Analysis
Single Cell Nucleic Acid Detection and Analysis
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Owner:PRESIDENT & FELLOWS OF HARVARD COLLEGE

Dual mode camera solution apparatus, system, and method

InactiveUS20090086074A1Improve dynamic rangeTelevision system detailsTelevision system scanning detailsImaging processingDual mode
Dual mode camera solution apparatus, system, and method
Dual mode camera solution apparatus, system, and method
Dual mode camera solution apparatus, system, and method
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Owner:OMNIVISION TECH INC

Digital camera which produces a single image based on two exposures

InactiveUS6903770B1Improve dynamic rangeTelevision system detailsTelevision system scanning detailsSingle imageSingle exposure
Digital camera which produces a single image based on two exposures
Digital camera which produces a single image based on two exposures
Digital camera which produces a single image based on two exposures
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Owner:XACTI CORP

High performance imaging system for diffuse optical tomography and associated method of use

ActiveUS7983740B2High bandwidthImprove performanceDiagnostics using tomographySensorsOptical tomographyImaging quality
A high performance imaging system for diffuse optical tomography is disclosed. A dense grid utilizing sources, e.g., light emitting diodes (“LEDs”), that achieve high performance at high speed with a high dynamic range and low inter-channel crosstalk are complemented by a system of discrete, isolated receivers, e.g., avalanche photodiodes (“APDs”). The source channels have dedicated reconfigurable encoding control signals, and the detector channels have reconfigurable decoding, allowing maximum flexibility and optimal mixtures of frequency and time encoding and decoding. Each detector channel is analyzed by dedicated, isolated, high-bandwidth receiver circuitry so that no channel gain switching is necessary. The resulting improvements to DOT system performance, e.g., increased dynamic range and decreased crosstalk, enable higher density imaging arrays and provide significantly enhanced DOT image quality. A processor can be utilized to provide sophisticated three dimensional modeling as well as noise reduction.
High performance imaging system for diffuse optical tomography and associated method of use
High performance imaging system for diffuse optical tomography and associated method of use
High performance imaging system for diffuse optical tomography and associated method of use
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Owner:WASHINGTON UNIV IN SAINT LOUIS

Systems and methods for extending dynamic range of imager arrays by controlling pixel analog gain

InactiveUS20130147979A1Improve dynamic rangeAdvanced image informationTelevision system detailsSolid-state device signal generatorsAnalog front-endDigital image data
Array cameras and imager arrays configured to capture high dynamic range light field image data and methods of capturing high dynamic range light field image data in accordance with embodiments of the invention are disclosed. Imager arrays in accordance with many embodiments of the invention include multiple focal planes with associated read out and sampling circuitry. The sampling circuitry controls the conversion of the analog image information into digital image data. In certain embodiments, the sampling circuitry includes an Analog Front End (AFE) and an Analog to Digital Converter (ADC). In several embodiments, the AFE is used to apply different amplification gains to analog image information read out from pixels in a given focal plane to provide increased dynamic range to digital image data generated by digitizing the amplified analog image information. The different amplifications gains can be applied in a predetermined manner or on a pixel by pixel basis.
Systems and methods for extending dynamic range of imager arrays by controlling pixel analog gain
Systems and methods for extending dynamic range of imager arrays by controlling pixel analog gain
Systems and methods for extending dynamic range of imager arrays by controlling pixel analog gain
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Owner:FOTONATION CAYMAN LTD

Acoustic respiratory monitoring systems and methods

ActiveUS10463340B2Accurate captureImprove dynamic rangeAuscultation instrumentsComputer moduleEngineering
An acoustic sensor is provided according to certain aspects for non-invasively detecting physiological acoustic vibrations indicative of one or more physiological parameters of a medical patient. The sensor can include an acoustic sensing element configured to generate a first signal in response to acoustic vibrations from a medical patient. The sensor can also include front-end circuitry configured to receive an input signal that is based at least in part on the first signal and to produce an amplified signal in response to the input signal. In some embodiments, the sensor further includes a compression module in communication with the front-end circuitry and configured to compress portions of at least one of the input signal and the amplified signal according to a first compression scheme, the compressed portions corresponding to portions of the first signal having a magnitude greater than a predetermined threshold level.
Acoustic respiratory monitoring systems and methods
Acoustic respiratory monitoring systems and methods
Acoustic respiratory monitoring systems and methods
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Owner:JPMORGAN CHASE BANK NA

Method and apparatus for illuminating a field-of-view and capturing an image

ActiveUS20050023356A1Improve dynamic rangeImproved determinationCharacter and pattern recognitionRecord carriers used with machinesPhysicsLight beam
A variable illuminator, for instance a device for scanning a beam of light, emits a selected amount of power to a plurality of spots across a field of view. The amount of power is determined as inversely proportional to the apparent brightness of each spot. In the case where the spot size is equal to pixel size, the device may operate with a non-imaging detector. In the case where pixel size substantially equals spot size, the output of the variable illuminator may be converged to produce a substantially uniform detector response and the image information is determined as the inverse of a frame buffer used to drive the variable illuminator. The illuminator and detector may be driven synchronously. In the case where an imaging detector is used, the variable illumination may be used to compress the dynamic range of the field of view to substantially within the dynamic range of the imaging detector.
Method and apparatus for illuminating a field-of-view and capturing an image
Method and apparatus for illuminating a field-of-view and capturing an image
Method and apparatus for illuminating a field-of-view and capturing an image
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Owner:MICROVISION

Liquid crystal display apparatus

ActiveUS20050231457A1Reduce in quantityQuality improvementTelevision system detailsStatic indicating devicesLiquid-crystal displayComputer science
Liquid crystal display apparatus
Liquid crystal display apparatus
Liquid crystal display apparatus
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Owner:PANASONIC LIQUID CRYSTAL DISPLAY CO LTD +1

Method and system to differentially enhance sensor dynamic range

InactiveUS6919549B2Effective dynamic rangeInhibition effectTelevision system detailsOptical rangefindersPhotovoltaic detectorsPhotodetector
Method and system to differentially enhance sensor dynamic range
Method and system to differentially enhance sensor dynamic range
Method and system to differentially enhance sensor dynamic range
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Owner:MICROSOFT TECH LICENSING LLC

High dynamic range sensor with reduced line memory for color interpolation

ActiveUS20090109306A1Reduction in line widthExtend dynamic rangeTelevision system detailsColor signal processing circuitsImage sensorHigh dynamic range
An image sensor has an array of pixels organized into a row and column format. Pixels are read out in a line-by-line sequence and buffered in a line image buffer. An extended dynamic range is supported by varying a column exposure time according to a periodic sequence. As a result, the pixel exposure times vary within each row. A high dynamic range is generated by combining pixel data of adjacent pixels within the same row that are of the same filter type but having different exposure times. Color interpolation is performed on the combined line data.
High dynamic range sensor with reduced line memory for color interpolation
High dynamic range sensor with reduced line memory for color interpolation
High dynamic range sensor with reduced line memory for color interpolation
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Owner:OMNIVISION TECH INC

System and Method for Co-Channel Interference Measurement and Managed Adaptive Resource Allocation for Wireless Backhaul

ActiveUS20120236731A1Reduce disadvantagesReduce co-channel interferenceError preventionTransmission systemsResource blockPublic resource
A system, method, and software are provided for measuring co-channel interference in a wireless network with particular application for management of resource allocation for Non Line of Sight (NLOS) wireless backhaul in MicroCell and PicoCell networks. Given the difficulty of predicting the mutual interference between multiple links, DownLink and UpLink co-channel interference are characterized between each Hub and each Remote Backhaul Module Unit periodically during active service. Beneficially, the co-channel interference metrics are used as the basis for intelligently and adaptively managing network resources to substantially reduce interference and increase the aggregate data capacity of the network e.g. by grouping of interfering and/or non-interfering links, and managing resource block allocations accordingly, i.e. assigning common resource blocks preferentially to weakly interfering links or groups of links and allocating different resource blocks or orthogonal channels to strongly interfering links or groups of links.
System and Method for Co-Channel Interference Measurement and Managed Adaptive Resource Allocation for Wireless Backhaul
System and Method for Co-Channel Interference Measurement and Managed Adaptive Resource Allocation for Wireless Backhaul
System and Method for Co-Channel Interference Measurement and Managed Adaptive Resource Allocation for Wireless Backhaul
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Owner:BLINQ NETWORKS

High dynamic range sensor system and method

ActiveUS20090268192A1Improve performanceHigh dynamic rangeOptical rangefindersHeight/levelling measurementSensor systemHigh dynamic range
A high dynamic range sensor assembly includes a plurality of sensing sets that are organized into a sensing array. Each of the sensing sets includes a set of sensing elements for sensing physical phenomena. Each set of sensing elements has a locally selectable integration time. An analog-to-digital (A / D) converter operatively connected to the set of sensing elements acquires and converts an analog signal from each of the sensing elements into a digital signal. A processor operatively connected to the A / D converter and to the set of sensing elements manages the selectable integration time for the set of sensing elements and analyzes the digital signals from each of the sensing elements in the set of sensing elements. The digital signals from each of the sensing elements are measured by the processor and an integration scaling factor for the set of sensing elements is computed and controlled by the processor to adjust the integration time. The integration scaling factor for the set of sensing elements is mathematically combined with a value of the digital signal from the A / D converter to form a larger data word than what is generated by the A / D converter. The larger data word is utilized to represent a magnitude of each of the sensing elements. If a substantial number of A / D values have saturated, the integration time is decreased; and, if a substantial number of A / D values are below a predetermined threshold, the integration time is increased.
High dynamic range sensor system and method
High dynamic range sensor system and method
High dynamic range sensor system and method
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Owner:ROCKWELL COLLINS INC

Single cell nucleic acid detection and analysis

ActiveUS9260753B2Improve dynamic rangeReduce or eliminate the amplification biasMicrobiological testing/measurementScreening processNucleic acid detectionNucleic acid sequencing
Single cell nucleic acid detection and analysis
Single cell nucleic acid detection and analysis
Single cell nucleic acid detection and analysis
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Owner:PRESIDENT & FELLOWS OF HARVARD COLLEGE

High Dynamic Range Displays Using Filterless LCD(s) For Increasing Contrast And Resolution

ActiveUS20110279749A1Increase contrastImprove black levelCathode-ray tube indicatorsSteroscopic systemsFiltrationDisplay device
A display provides increased contrast and resolution via first LCD panel energized to generate an image and a second LCD panel configured to increase contrast of the image. The second panel is an LCD panel without color filters and is configured to increase contrast by decreasing black levels of dark portions of images (making them blacker or darker) using polarization rotation and filtration. Preferably, the second LCD panel is of higher resolution than the first LCD panel. The panels may be directly illuminated or edge lit, and may be globally or locally dimmed monochrome or multi primary lights that may also include individual control of color intensities for each image or frame displayed. The panels may be placed in any order, but preferably are arranged such that active layers in each panel are as close together as possible. Brightness is maintained by the combination of reusing polarization between the panels and by not going through more than one set of color filters. Improved contrast is a result of using multiple light modulators in series.
High Dynamic Range Displays Using Filterless LCD(s) For Increasing Contrast And Resolution
High Dynamic Range Displays Using Filterless LCD(s) For Increasing Contrast And Resolution
High Dynamic Range Displays Using Filterless LCD(s) For Increasing Contrast And Resolution
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Owner:DOLBY LAB LICENSING CORP

Phased array metamaterial antenna system

ActiveUS20050225492A1Low Sidelobe PerformanceReduce sidelobeRadiating elements structural formsWaveguidesSolid substratePhased array
An efficient, low-loss, low sidelobe, high dynamic range phased-array radar antenna system is disclosed that uses metamaterials, which are manmade composite materials having a negative index of refraction, to create a biconcave lens architecture (instead of the aforementioned biconvex lens) for focusing the microwaves transmitted by the antenna. Accordingly, the sidelobes of the antenna are reduced. Attenuation across microstrip transmission lines may be reduced by using low loss transmission lines that are suspended above a ground plane a predetermined distance in a way such they are not in contact with a solid substrate. By suspending the microstrip transmission lines in this manner, dielectric signal loss is reduced significantly, thus resulting in a less-attenuated signal at its destination.
Phased array metamaterial antenna system
Phased array metamaterial antenna system
Phased array metamaterial antenna system
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Owner:LUCENT TECH INC

Adaptive impedance matching apparatus, system and method with improved dynamic range

ActiveUS7535312B2Improve dynamic rangeImprove linearityMultiple-port networksResonant long antennasImpedance matchingEngineering
An embodiment of the present invention provides an apparatus, comprising an RF matching network connected to at least one RF input port and at least one RF output port and including one or more voltage or current controlled variable reactive elements, a voltage detector connected to the at least one RF output port via a variable voltage divider to determine the voltage at the at least one RF output port and provide voltage information to a controller that controls a bias driving circuit which provides bias voltage or bias current to the RF matching network, and wherein the RF matching network is adapted to maximize RF power transferred from the at least one RF input port to the at least one RF output port by varying the voltage or current to the voltage or current controlled variable reactive elements to maximize the RF voltage at the at least one RF output port.
Adaptive impedance matching apparatus, system and method with improved dynamic range
Adaptive impedance matching apparatus, system and method with improved dynamic range
Adaptive impedance matching apparatus, system and method with improved dynamic range
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Owner:NXP USA INC

Producing an extended dynamic range digital image

InactiveUS20080025634A1Improve dynamic rangeEnhance the imageImage enhancementTelevision system detailsImage resolutionDigital image
Producing an extended dynamic range digital image
Producing an extended dynamic range digital image
Producing an extended dynamic range digital image
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Owner:MONUMENT PEAK VENTURES LLC

Image display device and image display method

InactiveUS7053881B2Rule out the possibilityImprove dynamic contrastCathode-ray tube indicatorsNon-linear opticsDisplay devicePeak value
An image display device according to the present invention is capable of presenting to a viewer a high-quality lustrous video on a display screen with best screen brightness by increasing visual contrast and avoiding loss of true black elements without widening a dynamic range of a picture signal. The image display device is provided with a liquid crystal display portion (11), a display control portion (14), a backlight (12), a backlight control portion (13) and an average brightness detecting portion (15) and detects brightness of the light source in accordance with the average brightness of a picture signal to be displayed. It is further provided with a peak detecting portion (16) and corrects the control of the backlight control portion (13) in accordance with a detected peak value of a picture.
Image display device and image display method
Image display device and image display method
Image display device and image display method
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Owner:SHARP KK

Image capture unit and method with an extended depth of field

ActiveUS20130038689A1Overcomes shortcomingMore capabilityImage enhancementTelevision system detailsBeam splitterImage resolution
In a minimally invasive surgical system, an image capture unit includes a prism assembly and sensor assembly. The prism assembly includes a beam splitter, while the sensor assembly includes coplanar image capture sensors. Each of the coplanar image capture sensors has a common front end optical structure, e.g., the optical structure distal to the image capture unit is the same for each of the sensors. A controller enhances images acquired by the coplanar image capture sensors. The enhanced images may include (a) visible images with enhanced feature definition, in which a particular feature in the scene is emphasized to the operator of minimally invasive surgical system; (b) images having increased image apparent resolution; (c) images having increased dynamic range; (d) images displayed in a way based on a pixel color component vector having three or more color components; and (e) images having extended depth of field.
Image capture unit and method with an extended depth of field
Image capture unit and method with an extended depth of field
Image capture unit and method with an extended depth of field
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Owner:INTUITIVE SURGICAL OPERATIONS INC

Method and system to differentially enhance sensor dynamic range using enhanced common mode reset

ActiveUS7176438B2Extend effective differential dynamic range of differentialInhibitionTelevision system detailsTelevision system scanning detailsAudio power amplifierPhotodetector
Method and system to differentially enhance sensor dynamic range using enhanced common mode reset
Method and system to differentially enhance sensor dynamic range using enhanced common mode reset
Method and system to differentially enhance sensor dynamic range using enhanced common mode reset
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Owner:MICROSOFT TECH LICENSING LLC

Frequency hopping spread spectrum system with high sensitivity tracking and synchronization for frequency unstable signals

InactiveUS6934316B2Improve dynamic rangeReduce sensitivityData switching by path configurationSynchronisation signal speed/phase controlFrequency-hopping spread spectrumFast Fourier transform
A wireless spread spectrum communication system for transmitting data includes a plurality of end point transmitters and at least one receiver. The end point transmitters transmit data via a frequency hopped spread spectrum signal where the transmitting signal is sent without the benefit of frequency stabilization. The receiver is responsive to the frequency hopping spread spectrum signals and includes a correlator and a signal processor. The correlator samples at least a first portion of a preamble of the signal and correlates the portion of the preamble with a known preamble pattern to determine a probability of correlation. The signal processor applies a Fast Fourier Transform algorithm to the signal in response to the probability of correlation to track a narrowband frequency of the signal based on at least a second portion of the preamble and to decode data encoded within the signal subsequent to the preamble.
Frequency hopping spread spectrum system with high sensitivity tracking and synchronization for frequency unstable signals
Frequency hopping spread spectrum system with high sensitivity tracking and synchronization for frequency unstable signals
Frequency hopping spread spectrum system with high sensitivity tracking and synchronization for frequency unstable signals
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Owner:ITRON

Solid-state imaging device, drive method thereof and electronic apparatus

ActiveUS20090303371A1Improve charging capacityHigh sensitivityTelevision system detailsTelevision system scanning detailsPhotoelectric conversionEngineering
Solid-state imaging device, drive method thereof and electronic apparatus
Solid-state imaging device, drive method thereof and electronic apparatus
Solid-state imaging device, drive method thereof and electronic apparatus
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Owner:SONY CORP

Method and apparatus for improving dynamic range of a touchscreen controller

ActiveUS20110261005A1Improve dynamic rangeLow costElectronic switchingInput/output processes for data processingOffset cancellationEngineering
A touchscreen system for increasing the dynamic range of the system comprising a touchscreen coupled to an offset cancellation element and a capacitance measuring element. The offset cancellation element is configured to be dynamically changed in capacitance such that it offsets parasitic and sensor capacitances of the touchscreen sensors thereby leaving only touch event capacitance to be measured by the measuring element. The offset cancellation element is able to adjust to the initial unwanted capacitances of each sensor as well as dynamically adjust to changes in the unwanted capacitance due to the environment. In some embodiments, the offset cancellation element is a capacitance digital-to-analog converter that is controlled by a controller for offsetting the unwanted capacitance. As a result, the touchscreen system is able to utilize a small integrating capacitor thereby lowering cost and improving the dynamic range of the system.
Method and apparatus for improving dynamic range of a touchscreen controller
Method and apparatus for improving dynamic range of a touchscreen controller
Method and apparatus for improving dynamic range of a touchscreen controller
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Owner:QUALCOMM INC

Method and apparatus for omni-directional image and 3-dimensional data acquisition with data annotation and dynamic range extension method

InactiveUS7126630B1Accurate signalIncrease exposureTelevision system detailsColor television detailsMulti cameraData acquisition
A method and apparatus for omni-directional image and 3-dimensional data acquisition with data annotation and dynamic rage extension method is capable of omni-directionally photographing, acquiring 3-dimensional images photographed by cameras having each different exposure amount in connection with the direction of height of an object, extending dynamic range, and generating an geographical information by entering an annotation such as photographing location and time into the photographed images, which can be connected with other geographical information system database. The apparatus includes one or more multi camera module(s) which are stacked and formed multi layers in the direction of height for acquiring 3-dimensional images and extending dynamic range of the 3-dimensional images, wherein each multi camera module includes a plurality of cameras symmetrically arranged with a specific point in a plane.
Method and apparatus for omni-directional image and 3-dimensional data acquisition with data annotation and dynamic range extension method
Method and apparatus for omni-directional image and 3-dimensional data acquisition with data annotation and dynamic range extension method
Method and apparatus for omni-directional image and 3-dimensional data acquisition with data annotation and dynamic range extension method
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Owner:KUJIN LEE

Methods for providing extended dynamic range in analyte assays

InactiveUS20030096302A1Improve dynamic rangeBioreactor/fermenter combinationsBiological substance pretreatmentsHigh concentrationAnalyte
Methods for providing extended dynamic range in analyte assays
Methods for providing extended dynamic range in analyte assays
Methods for providing extended dynamic range in analyte assays
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Owner:LIFE TECH CORP

Hydrogen sulphide detection method and apparatus

InactiveUS6939717B2Improve dynamic rangeSurveyConstructionsFormation fluidSensor system
Hydrogen sulphide detection method and apparatus
Hydrogen sulphide detection method and apparatus
Hydrogen sulphide detection method and apparatus
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Owner:SCHLUMBERGER TECH CORP

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