Wang, Pasadena
Heng Wang, Pasadena, CA US
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20120097906 | HEAVILY DOPED PbSe WITH HIGH THERMOELECTRIC PERFORMANCE - The present invention discloses heavily doped PbSe with high thermoelectric performance. Thermoelectric property measurements disclosed herein indicated that PbSe is high zT material for mid-to-high temperature thermoelectric applications. At 850 K a peak zT>1.3 was observed when n | 04-26-2012 |
20140027681 | n-TYPE DOPED PbTe AND PbSe ALLOYS FOR THERMOELECTRIC APPLICATIONS - The present invention demonstrates that weak scattering of carriers leads to a high mobility and therefore helps achieve low electric resistivity with high Seebeck coefficient for a thermoelectric material. The inventors demonstrate this effect by obtaining a thermoelectric figure of merit, zT, higher than 1.3 at high temperatures in n-type PbSe, because of the weak scattering of carriers in the conduction band as compared with that in the valence band. The invention further demonstrates favorable thermoelectric transport properties of n-type PbTe | 01-30-2014 |
Ruizhe Wang, Pasadena, CA US
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20130286012 | 3D BODY MODELING FROM ONE OR MORE DEPTH CAMERAS IN THE PRESENCE OF ARTICULATED MOTION - The present disclosure describes systems and techniques relating to generating three dimensional (3D) models from range sensor data. According to an aspect, multiple 3D point clouds, which are captured using one or more 3D cameras, are obtained. At least two of the 3D point clouds correspond to different positions of a body relative to at least a single one of the one or more 3D cameras. Two or more of the 3D point clouds are identified as corresponding to two or more predefined poses, and a segmented representation of the body is generated, in accordance with a 3D part-based volumetric model including cylindrical representations, based on the two 3D point clouds identified as corresponding to the two predefined pose. | 10-31-2013 |
Yibing Wang, Pasadena, CA US
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20140263953 | IMAGE SENSOR, OPERATION METHOD THEREOF, AND SYSTEM INCLUDING THE SAME - A motion sensing method is implemented by an image sensor, the image sensor including a first pixel and a second pixel. The method includes outputting a first pixel signal of the first pixel during a first integration time of a frame period, outputting a second pixel signal of the second pixel during a second integration time of the frame period, and generating comparison signals indicative of a sensed moving object by comparing the first pixel signal and the second pixel signal. | 09-18-2014 |
20140267859 | IMAGE SENSOR, OPERATING METHOD THEREOF, AND DEVICE INCLUDING THE IMAGE SENSOR - An image sensor includes a first photoelectric conversion element supplying charges to a first charge storage node, a first charge storage element adjusting an amount of charges supplied from a charge supply source to the first charge storage node in response to a feedback signal, and a feedback signal generating circuit generating the feedback signal based on an amount of charges in the first charge storage node. | 09-18-2014 |
Yibing (michelle) Wang, Pasadena, CA US
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20090015700 | Apparatus and method for eliminating artifacts in active pixel sensor (APS) imagers - An active pixel sensor (APS) that includes circuitry to eliminate artifacts in digital images. The APS includes a comparator for comparing a signal level from a pixel to an adjusted saturation voltage to determine if the pixel is saturated. If the pixel is saturated, the signal output from the pixel is replaced with an analog voltage having a maximum value corresponding to a brightest pixel in the image. | 01-15-2009 |
20110102645 | APPARATUS AND METHOD FOR ELIMINATING ARTIFACTS IN ACTIVE PIXEL SENSOR (APS) IMAGERS - An active pixel sensor (APS) that includes circuitry to eliminate artifacts in digital images. The APS includes a comparator for comparing a signal level from a pixel to an adjusted saturation voltage to determine if the pixel is saturated. If the pixel is saturated, the signal output from the pixel is replaced with an analog voltage having a maximum value corresponding to a brightest pixel in the image. | 05-05-2011 |
20120045146 | APPARATUS AND METHOD FOR ELIMINATING ARTIFACTS IN ACTIVE PIXEL SENSOR (APS) IMAGERS - An active pixel sensor (APS) that includes circuitry to eliminate artifacts in digital images. The APS includes a comparator for comparing a signal level from a pixel to an adjusted saturation voltage to determine if the pixel is saturated. If the pixel is saturated, the signal output from the pixel is replaced with an analog voltage having a maximum value corresponding to a brightest pixel in the image. | 02-23-2012 |
20140183338 | DEPTH PIXEL OF THREE-DIMENSIONAL IMAGE SENSOR AND THREE-DIMENSIONAL IMAGE SENSOR INCLUDING THE SAME - A depth pixel includes a photo detection unit, an ambient light removal current source, a driving transistor and a select transistor. The photo detection unit is configured to generate a light current based on a received light reflected from a subject, the received light including an ambient light component. The ambient light removal current source configured to generate a compensation current indicating the ambient light component in response to a power supply and at least one compensation control signal. The driving transistor is configured to amplify an effective voltage corresponding to the light current and the compensation current. The select transistor configured to output the amplified effective voltage in response to a selection signal, the amplified effective voltage indicating a depth of the subject. | 07-03-2014 |
Ying Min Wang, Pasadena, CA US
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20110108707 | ACOUSTIC ASSISTED PHASE CONJUGATE OPTICAL TOMOGRAPHY - A light microscope for imaging a sample containing one or more fluorescent agents, comprising a source for generating acoustic waves that are focused at a focus in the sample, wherein the acoustic waves frequency shift a frequency of light passing through the focus, thereby creating a frequency shifted light beam; at least one spatial light modulator (SLM) positioned to illuminate the sample with an output beam that is an optical phase conjugate of the frequency shifted light beam, wherein the output beam is a reflection of a first reference beam off one or more pixels of the SLM, and the pixels are for modulating the first reference beam to create the output beam; and a detector positioned to detect fluorescence generated by the output beam exciting the fluorescent agents at the focus in the sample, thereby imaging the sample. | 05-12-2011 |
20120070817 | ACOUSTIC-ASSISTED ITERATIVE WAVE FORM OPTIMIZATION FOR DEEP TISSUE FOCUSING - A method, apparatus, and article of manufacture for irradiating one or more targets within a sample with electromagnetic (EM) radiation. One or more targets within the sample are controllably defined with an acoustic field. The sample is irradiated with input EM radiation having an input wavefront. An amount of frequency shifted EM radiation is detected, wherein at least some of the input EM radiation that passes through the acoustic field at the targets is shifted in frequency to form the frequency shifted EM radiation. The input wavefront is modified, using feedback comprising the amount of the frequency shifted EM radiation that is detected, into a modified wavefront. The sample is irradiated using the input EM radiation comprising the modified wavefront, and the process is repeated as desired. | 03-22-2012 |
20130342665 | DEEP TISSUE FOCAL FLUORESCENCE IMAGING WITH DIGITALLY TIME-REVERSED ULTRASOUND-ENCODED LIGHT - A device and method for performing fluorescence imaging with digitally time reversed ultrasound encoded light, using a source of ultrasound waves, a coherent light source, a digital optical phase conjugation (DOPC) device comprising a camera and a spatial light modulator (SLM), a detector of fluorescence, and one or more computers, to obtain an output that at least approximates an interaction between a complete time reversed field, of all of the encoded light's fields, and the scattering medium. | 12-26-2013 |
20140118739 | TIME-REVERSAL OF VARIANCE-ENCODED LIGHT (TROVE) - A method and apparatus for irradiating a scattering medium with increased resolution. The method includes transmitting EM radiation from an Electromagnetic (EM) radiation source to a target inside a scattering medium, wherein the target encodes the EM radiation with a variance structure to form encoded EM radiation; measuring, in a detector, transmitted EM radiation comprising at least a portion of the encoded EM radiation transmitted through and exiting the scattering medium; decoding the transmitted EM radiation, comprising EM fields, in a computer, comprising selecting one or more of the EM fields having the variance structure; and irradiating the scattering medium with time reversed EM radiation from a spatial light modulator (SLM), the time reversed EM radiation generated from time reversing the EM fields having the variance structure, thereby forming a focus of the time reversed EM radiation in the scattering medium with the increased resolution. | 05-01-2014 |
Yu-Jiu Wang, Pasadena, CA US
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20090052597 | SCALABLE RECONFIGURABLE CONCURRENT FILTER FOR WIDE-BANDWIDTH COMMUNICATION - The invention relates to a reconfigurable continuous FIR filter. The reconfigurable continuous FIR filter includes a delay line including at least two delay elements coupled in cascade. The reconfigurable continuous FIR filter also includes a filter section including at least three gain-phase elements. The filter section also includes a summing circuit having a plurality of inputs at least equal in number to the at least three gain-phase elements and one output. The reconfigurable continuous FIR filter is configured to exhibit a filter transfer function that is reconfigurable in real time. The invention also related to down-converters using the reconfigurable continuous FIR filter. The invention also related to electromagnetic wave receivers using the reconfigurable continuous FIR filter. The invention also relates to a method for reconfigurable real time continuous filtering. | 02-26-2009 |
Zhiying Wang, Pasadena, CA US
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20120096234 | INFORMATION REPRESENTATION AND CODING FOR NONVOLATILE MEMORIES - A memory device having a plurality of cells, each of which stores a value, where the values of the cells are mapped to discrete levels and the discrete levels represent data, is programmed by determining a maximum number of cell levels in the memory device, and determining the set of values that are associated with each of the cell levels. The maximum number of cell levels for the memory device is determined by an adaptive programming system connected to the memory device, based on a plurality of cell values attained by at least one cell of the memory device, in response to voltage applied by the adaptive programming system to the cells of the memory device. The adaptive programming system associates, for each of the cell levels, a different set of cell values of the plurality of cell values attained by the cells to which voltage is applied. This technique increases the number of cell levels that can be configured in a memory device as compared with conventional techniques, and increases the number of data values that can be programmed into the cells of a memory device. | 04-19-2012 |
20120278689 | MDS ARRAY CODES WITH OPTIMAL BUILDING - MDS array codes are widely used in storage systems to protect data against erasures. The rebuilding ratio problem is addressed and efficient parity codes are proposed. A controller as disclosed is configured for receiving configuration data at the controller that indicates operating features of the array and determining a parity code for operation of the array according to a permutation, wherein the configuration data specifies the array as comprising nodes defined by A=(a | 11-01-2012 |