Patent application number | Description | Published |
20090076754 | Methods, systems and apparatuses for modeling optical images - Methods, systems and apparatuses for modeling high resolution images which significantly shortens computation time and reduces image artifacts, as compared to known methods. Embodiments implement a look-up table, to compute once and store the point spread functions for various points of an image. During modeling of the optical system, previously stored point spread functions may be used to determine the point spread function for a specified point using a weighted interpolation of the point spread functions that have been stored for nearby points. | 03-19-2009 |
20120044339 | OPTO-FLUIDIC MICROSCOPE SYSTEM WITH EVALUATION CHAMBERS - An image sensor integrated circuit may contain image sensor pixels. A channel containing a fluid with particles such as cells may be formed on top of the image sensor. The image sensor pixels may form light sensors and imagers. The imagers may gather images of the cells or other particles as the fluid passes over the imagers. The channel may have multiple branches. Gating structures and other fluid control structures may control the flow of fluid through the channel branches. Portions of the channel may be used to form chambers. The chambers may each be provided with one or more light sensors, light sources, and color filters to alter the color of illumination form a light source, one or more reactants such as dyes, antigens, and antibodies, and heaters. The branches may route the fluid to respective chambers each of which has a different set of capabilities. | 02-23-2012 |
20120044341 | OPTOFLUIDIC MICROSCOPE SYSTEM-ON-CHIP - An integrated circuit may contain image sensor pixels. Channels containing a fluid with samples such as cells may be formed on top of the image sensor. Control circuitry may be formed on the integrated circuit. The image sensor pixels may form light sensors and imagers. Portions of the channel may have multiple chambers such as fluorescence detection chambers. Gating structures and other fluid control structures may control the flow of fluid through the channels and chambers. Portions of the channel may be used to form chambers. The chambers may each be provided with one or more light sensors, light sources, and color filters to alter the color of illumination form a light source, one or more reactants such as dyes, antigens, and antibodies, and heaters. The control circuitry may be configured to control the imagers, the gating structures, the fluid control structures, the light source, the heaters, etc. | 02-23-2012 |
20120045103 | SYSTEM FOR TARGETING CELLS OR OTHER MATERIALS - An image sensor integrated circuit may contain image sensor pixels. A channel containing a fluid with particles such as cells may be formed on top of the image sensor. Some of the image sensor pixels may form a calibration sensor and some of the image sensor pixels may form an imager. As the fluid and particles flow through the channel at a flow rate, the calibration sensor may measures the flow rate and illumination intensity in the channel. Based on calibration data such as measured flow rate and measured illumination intensity, adjustments may be made to ensure that the imager acquires satisfactory image data. The adjustments may include flow rate adjustments, image acquisition data rate adjustments, and illumination adjustments. A processing unit in the channel may contain a laser or other component to destroy selected cells. A flared region in the channel may be used as a chromatograph. | 02-23-2012 |
20120274811 | IMAGING DEVICES HAVING ARRAYS OF IMAGE SENSORS AND PRECISION OFFSET LENSES - Electronic devices may include array cameras having lens arrays, an corresponding color filter arrays, and corresponding image sensor arrays. Lenses in lens arrays may be aligned with positions on associated image sensors other than the centers of the associated image sensors. Lens arrays may include one or more layers of lenses formed by compression molding of transparent materials such as plastic. Lens arrays may be mounted directly onto integrated circuit dies on which the image sensor arrays are formed. Color filter arrays may include one or more red filters, one or more green filters and one or more blue filters. Offsetting the centers of lenses with respect to the centers of associated image sensors may allow capture of spatially offset single-color images by the image sensors. Spatially offset single-color images may be combined into super-resolution images using the processing circuitry. | 11-01-2012 |
20120326256 | SPECTRALLY TUNED PLASMONIC LIGHT COLLECTORS - Electronic devices may be provided with imaging modules that include plasmonic light collectors. Plasmonic light collectors may be configured to exploit an interaction between incoming light and plasmons in the plasmonic light collector to alter the path of the incoming light. Plasmonic light collectors may include one or more spectrally tuned plasmonic image pixels configured to preferentially trap light of a given frequency. Spectrally tuned plasmonic image pixels may include plasmonic structures formed form a patterned metal layer over doped silicon layers. Doped silicon layers may be interposed between plasmonic structures and a reflective layer. Plasmonic image pixels may be used to absorb and detect as much as, or more than, ninety percent of incident light at wavelengths ranging from the infrared to the ultraviolet. Plasmonic image pixels that capture light of different colors may be arranged in patterned arrays to form imager modules or imaging spectrometers for optofluidic microscopes. | 12-27-2012 |
20130100082 | TOUCH PANELS WITH DYNAMIC ZOOMING AND LOW PROFILE BEZELS - An electronic device may have a touch panel. The touch panel may detect touch events using one or more cameras. The touch panel may include a planar exterior surface, such as a cover glass, that extends over an active region of a display and an inactive peripheral region. The cameras may be located underneath the inactive peripheral region. The cameras may include a light turning element to allow the cameras to detect touch events, without being raised above the exterior surface of the active region of the display (e.g., without having a raised profile). The touch panel may detect touch events using dynamic zooming techniques. As an example, the touch panel may divide the active region into sections, search for touch events in each section, zoom into sections in which touch events are found, and further search the sections in which touch events were found. | 04-25-2013 |
Patent application number | Description | Published |
20140211837 | RECEIVER WITH DOPPLER TOLERANT EQUALIZATION - A mobile communication device to equalize a Doppler shifted received signal according to one embodiment is configured to: extract one or more pilot signals from a segment of the received signal; perform Minimum Mean Square Error (MMSE) filtering on the extracted pilot signals, wherein the filter provides estimated pilot signal impulse responses; estimate the amplitudes of one or more path components of the estimated pilot signal impulse responses; estimate the phases of one or more path components of the estimated pilot signal impulse responses; and combine the estimated amplitudes and the estimated phases of the path components of the pilot signal impulse responses, wherein the combination provides an estimated channel impulse response. | 07-31-2014 |
20140369323 | SYSTEMS AND METHODS FOR DATA RATE OPTIMIZATION IN A WCAN SYSTEM WITH INJECTION-LOCKED CLOCKING - A method for determining an optimal pulse repetition period (PRP) in a system including a wireless transmission device operating in a static physical transmission environment includes providing a first and second injection-locked transmission system (ILT system). The method further includes implementing an algorithm in a microprocessor within the first ILT system. The algorithm includes synchronizing a receiver clock in the second ILT system with the clock of the first ILT system; setting the PRP equal to an impulse duration, the PRP being very short; increasing the PRP until a bit error rate (BER) at the PRP is less than the bit error rate limit; and based on the determining that the BER is less than the bit error rate limit, setting the PRP as the optimal PRP. | 12-18-2014 |
20150043619 | TIME-PHASE-HOPPING MODULATION AND DEMODULATION OF MULTIPLE BIT STREAMS WITH PHASE-CHANGE FREQUENCY CONTROL, SUCH AS FOR WIRELESS CHIP AREA NETWORK - Methods and systems to modulate and demodulate first and second path bits within sequences of pulses, where each pulse represents first and second path bits and is position-modulated and phase-modulated based on binary values of the corresponding bits, with no more than 1 phase change per N pulses. Position-modulation may be based on first-path bits. Phase-modulation may be based on second-path bits. A modulator first path has an input data rate Q times that of a second path. The first may include an N-bit encoder. The second path may include a Q-bit encoder and an N-bit repetition encoder. A demodulator includes a first path to determine first path bit values based on pulse coordinates integrated over N frames, and a second path to determine second path bit values based on further integration over Q frames. | 02-12-2015 |