Patent application number | Description | Published |
20150332681 | CLOSED LOOP QUANTIZATION OF HIGHER ORDER AMBISONIC COEFFICIENTS - In general, techniques are described for closed loop quantization of HOA coefficients that provide a three-dimensional representation of the sound field. An audio encoding device may perform closed loop quantization of an audio object based at least in part on a result of performing quantization of directional information associated with the audio object. An audio decoding device may obtain an audio object that has been closed loop quantized based at least in part on a result of performing quantization of directional information associated with the audio object, and may dequantize the audio object. | 11-19-2015 |
20150332682 | SPATIAL RELATION CODING FOR HIGHER ORDER AMBISONIC COEFFICIENTS - A device for decoding audio data comprises a memory to store the audio data; and one or more processors coupled to the memory and configured to obtain spatial information for a spatial relation of non-zero order higher-order ambisonic (HOA) coefficients associated with a spherical basis function having an order greater than zero, with zero-order HOA coefficients associated with a spherical basis function having an order of zero, the spatial information resulting in an error between the non-zero order HOA coefficients and a signal model of the non-zero order HOA coefficients that represents at least one directional component of the non-zero order HOA coefficients in the spatial relation with the zero-order HOA coefficients, wherein the one or more processors are further configured to obtain sign information for the non-zero order HOA coefficients when reconstructing the non-zero order HOA coefficients using the spatial relation. | 11-19-2015 |
20150332683 | CROSSFADING BETWEEN HIGHER ORDER AMBISONIC SIGNALS - In general, techniques are described for crossfading sets of spherical harmonic coefficients. An audio encoding device or audio decoding device comprising a memory and a processor may be configured to perform the techniques. The memory may be configured to store a first set of spherical harmonic coefficients (SHCs) and a second set of SHCs. The first set of SHCs describe a first sound field. The second set of SHCs describe a second sound field. The processor may be configured to crossfade between the first set of SHCs and a second set of SHCs to obtain a first set of crossfaded SHCs. | 11-19-2015 |
20150332690 | CODING VECTORS DECOMPOSED FROM HIGHER-ORDER AMBISONICS AUDIO SIGNALS - In general, techniques are described for coding of vectors decomposed from higher order ambisonic coefficients. A device comprising a processor and a memory may perform the techniques. The processor may be configured to obtain from a bitstream data indicative of a plurality of weight values that represent a vector that is included in a decomposed version of the plurality of HOA coefficients. Each of the weight values may correspond to a respective one of a plurality of weights in a weighted sum of code vectors that represents the vector and that includes a set of code vectors. The processor may further be configured to reconstruct the vector based on the weight values and the code vectors. The memory may be configured to store the reconstructed vector. | 11-19-2015 |
20150332691 | DETERMINING BETWEEN SCALAR AND VECTOR QUANTIZATION IN HIGHER ORDER AMBISONIC COEFFICIENTS - In general, techniques are described for coding of vectors decomposed from higher-order ambisonic coefficients. A device comprising a memory and a processor may perform the techniques. The memory may be configured to store audio data. The processor may be configured to determine whether to perform vector dequantization or scalar dequantization with respect to a decomposed version of the plurality of HOA coefficients. | 11-19-2015 |
20150332692 | SELECTING CODEBOOKS FOR CODING VECTORS DECOMPOSED FROM HIGHER-ORDER AMBISONIC AUDIO SIGNALS - In general, techniques are described for performing codebook selection when coding vectors decomposed from higher-order ambisonic coefficients. A device comprising a memory and a processor may perform the techniques. The memory may be configured to store a plurality of codebooks to use when performing vector dequantization with respect to a vector quantized spatial component of a soundfield. The vector quantized spatial component may be obtained through application of a decomposition to a plurality of higher order ambisonic coefficients. The processor may be configured to select one of the plurality of codebooks. | 11-19-2015 |
Patent application number | Description | Published |
20140125994 | MOTION SENSOR ARRAY DEVICE AND DEPTH SENSING SYSTEM AND METHODS OF USING THE SAME - In one example of the inventive concepts, a motion sensor array device includes a wafer and at least two motion sensors implemented on the wafer, each of the at least two motion sensors including a plurality of motion sensor pixels to sense a motion of an object and generate motion image data. The motion sensor array device further includes at least two lenses respectively arranged on the at least two motion sensors, wherein the motion sensor array is implemented in one of a chip and a package. | 05-08-2014 |
20140204250 | IMAGE SENSOR, OPERATING METHOD THEREOF, AND SYSTEM INCLUDING SAME - A method of operating an image processing system includes storing differences between first analog pixel signals and second analog pixel signals and converting the stored differences to one-bit digital signals, the first analog pixel signals being output from a plurality of pixels and corresponding to a previous frame, and the second analog pixel signals being output from the plurality of pixels and corresponding to a current frame. | 07-24-2014 |
20140374572 | UNIT PIXEL OF IMAGE SENSOR AND IMAGE SENSOR HAVING THE SAME - A unit pixel of an image sensor includes a photoelectric conversion unit, a mode control unit, a first signal generation unit and a second signal generation unit. The photoelectric conversion unit generates photo-charges in response to incident light and provides the photo-charges to a first node. The mode control unit prevents the photo-charges from being discharged from the first node in a first operation mode, and generates a sensing current by discharging the photo-charges and generates a sensing voltage proportional to the sensing current in a second operation mode. The first signal generation unit generates an analog signal based on an amount of the photo-charges accumulated in the first node in the first operation mode. The second signal generation unit generates an on signal and an off signal based on a change of the sensing voltage in the second operation mode. The unit pixel provides various sensing outputs effectively. | 12-25-2014 |
20150061501 | AMBIENT LIGHT SENSOR AND ELECTRONIC SYSTEM HAVING THE SAME - An ambient light sensor includes a photoelectric conversion unit, a current control unit, a signal conversion unit and a comparison unit. The photoelectric conversion unit provides a photo current having a magnitude corresponding to illuminance of incident light to a first node. The current control unit generates a control current exponentially proportional to an elapse time based on a clock signal, provides the control current to the first node, and outputs a digital code corresponding to the elapse time in response to a reset signal. The signal conversion unit generates a comparison voltage logarithmically proportional to a sum of the photo current and the control current. The comparison unit generates the reset signal by comparing a magnitude of the comparison voltage and a magnitude of a reference voltage. The ambient light sensor generates the digital code effectively representing illuminance of ambient light that eyes of a human being perceives. | 03-05-2015 |
20150069218 | IMAGE DEVICE INCLUDING DYNAMIC VISION SENSOR, AMBIENT LIGHT SENSOR AND PROXIMITY SENSOR FUNCTION - An image device including a pixel array and a controller, The pixel array having first pixels and second pixels and corresponding channel drivers. The controller may perform operations of a dynamic vision sensor (DVS), an ambient light sensor (ALS) and a proximity sensor (PS). | 03-12-2015 |
20150194454 | VISION SENSOR CHIP WITH OPEN-LOOP AMPLIFIER, OPERATING METHOD, AND DATA PROCESSING SYSTEM INCLUDING SAME - A vision sensor chip includes a photoelectric conversion element that generates a current based on an incident light, a current-voltage (I-V) converter that converts the current into a voltage, an AC coupling capacitor directly connected to the I-V converter, an open-loop amplifier that includes a reset switch and amplifies a voltage provided by the I-V converter via the AC coupling capacitor. An event detection block detects motion according to a change in the amplified output voltage and generates first and second detection signals. A reset signal generator generates a reset signal controlling operation of the reset switch in response to first and second control signals respectively related to the first and second detection signals. | 07-09-2015 |