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| 20080239094 | Method of and apparatus for image denoising - An image denoising system and method of implementing the image denoising system is described herein. Noise is decomposed within each channel into frequency bands, and sub-band noise is propagated. Denoising is then able to occur at any node in a camera pipeline after accurately predicting noise that is signal level-dependent, frequency dependent and has inter-channel correlation. A methodology is included for estimating image noise in each color channel at a sensor output based on average image level and camera noise parameters. A scheme is implemented for detecting a peak-white image level for each color channel and predicting image level values for representative colors. Based on a noise model and camera parameters, noise levels are predicted for each color channel for each color patch and these noise levels are propagated to the denoising node. A three dimentional LUT correlates signal level to noise level. Then, a denoising threshold is adaptively controlled. | 10-02-2008 |
| 20080240203 | Method of and apparatus for analyzing noise in a signal processing system - A fast accurate multi-channel frequency dependent scheme for analyzing noise in a signal processing system is described herein. Noise is decomposed within each channel into frequency bands and sub-band noise is propagated. To avoid the computational complexity of a convolution, traditional methods either assume the noise to be white, at any point in the signal processing pipeline, or they just ignore spatial operations. By assuming the noise to be white within each frequency band, it is possible to propagate any type of noise (white, colored, Gaussian, non-Gaussian and others) across a spatial transformation in a very fast and accurate manner. To demonstrate the efficacy of this technique, noise propagation is considered across various spatial operations in an image processing pipeline. Furthermore, the computational complexity is a very small fraction of the computational cost of propagating an image through a signal processing system. | 10-02-2008 |
| 20090080004 | SYSTEM AND METHOD FOR DETERMINING AN OPTIMAL REFERENCE COLOR CHART - A color chart for color calibration of imaging devices that has nearly identical calibration performance as the Macbeth ColorChecker or another set of reference colors, but with substantially fewer color patches. For example, the color chart has similar 2nd order statistical characteristics, auto-correlation matrix and major principal components as the Macbeth ColorChecker. The color chart is developed by applying Orthogonal Non-negative Matrix Factorization (ONMF) to the set of reference colors, using non-negativity and smoothness constraints to achieve physically realizable colors and using orthogonality constraints to obtain similar statistical properties to that of any input set of reflectances including, but not limited to, the Macbeth ColorChecker. Seven colors provide nearly identical calibration performance to that of twenty-four colors in the Macbeth ColorChecker. | 03-26-2009 |
| 20100067821 | System and method for denoising using signal dependent adaptive weights - A system and method for denoising using signal dependent adaptive weights includes an imaging device that captures image data corresponding to a photographic target. A denoising manager identifies similar pixels from said image data that are located within a pre-defined processing window around the pixel to be denoised. The denoising manager computes signal-dependent weighting values that correspond to respective ones of the similar pixels. The denoising manager then calculates the denoised pixel value by utilizing the weighting values in conjunction with raw pixel values of the similar pixel set. In this manner all pixels in the image are denoised. | 03-18-2010 |
| 20100231725 | ILLUMINANT INDEPENDENT COLOR CALIBRATION USING COLORED RAYS APPROACH - The color calibration using colored rays method achieves illuminant independence in calibrating digital still cameras. A constraint is developed using matrix-vector operations and properties of the Kronecker product. The constraint ensures similar calibration performance between colored rays set and the Macbeth ColorChecker. An optimization scheme using orthogonal non-negative matrix factorization with the new constraint is able to obtain the optimal colored rays set. Then, by acquiring an image of the optimal colored rays set, a camera is able to determine an adjustment matrix for color calibration. Experimental results show that compared to traditional calibration approach for digital still cameras, the colored rays approach gives smaller color error under various evaluation illuminants with only one shot needed. | 09-16-2010 |
| 20110075935 | METHOD TO MEASURE LOCAL IMAGE SIMILARITY BASED ON THE L1 DISTANCE MEASURE - A method of adaptive local image similarity measurement based on the L | 03-31-2011 |
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| 20110053450 | TEXTILE EMBELLISHMENTS THAT PERMANENTLY BOND TO WATERPROOF AND/OR WATERPROOF-BREATHABLE FABRICS - A new product and process for producing an integrated textile embellishments such as patches, emblems, appliqués, labels and cut textile parts (including woven, knits and nonwoven structures made of both natural and or synthetic fibers) incorporating adhesives that permanently bond by heat-sealing to waterproof and/or waterproof-breathable fabrics including Gore-Tex®, Sympatex™ and other fabrics having durable water repellant finishes (DWR). This eliminates the tedious and cost intensive sewing operations previously needed to attach textile embellishments to such fabrics. The product and process includes a top layer decorative element, a second layer bonded to the top layer through lamination or chemical bonding to create a more uniform or smooth surface, and a thermal adhesive layer bonded to the second layer and capable of heat-application to textile based textile based products such as apparel and or accessories, headwear, outdoor furnishings and luggage. Products of this type can survive multiple washes and are desired by manufactures for their ease of application, saving time, money and reducing complexity in the application process | 03-03-2011 |
| 20110168319 | PRESSURE SENSITIVE TEXTILE ADHESIVE - A method of wash-durably bonding integrated textile emblems such as patches, emblems, labels and cut textile parts to another textile article by laminating a pressure sensitive acrylic polymer adhesive to the back surface of the textile emblem. The acrylic polymer adhesive has a storage modulus that is greater than a loss modulus throughout a frequency range of from 0.1885 Hz to 628 Hz where bonding and debonding are expected to occur, and is devoid of any cross linking additives or reagents. The integrated textile emblem with laminated pressure sensitive acrylic polymer adhesive has improved adhesion to low-to-high energy surfaces, is not water soluble and is of adequate thickness to provide a wash-durable textile-to-textile bond capable of seaming or permanently attaching items such as textile panels, appliqué bearing text, numbers, logos and other indicia for the apparel, accessory and other industries. | 07-14-2011 |
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| 20110014837 | METHOD OF PRODUCING TEXTILE EMBLEMS WITH PRESSURE SENSITIVE ADHESIVE PROPERTIES - A new device, pressure sensitive adhesive system for bonding textiles and a method for producing integrated textile emblems such as patches, emblems, emblems, labels and cut textile parts including wovens, knits and nonwoven structures made of both natural and or synthetic fibers incorporating a pressure sensitive adhesive. The resulting room temperature pressure sensitive-patch eliminates tedious and cost intensive sewing operations (embroidery) and or heat-sealing operations (heat transfers) to other textile products such as apparel and or accessories, headwear, crafts home furnishings and luggage. The room temperature pressure sensitive adhesive-patches comprise at least: 1) a top base layer which can be a knitted, woven or non-woven fabric sheet that is stitched, printed, embossed, etched, engraved, flocked or dyed to form a decorative element, and which may be cut into a desired shape; 2) a pressure-sensitive adhesive layer adhered to the top base layer that comprises an adhesive having good medium-to-high surface energy properties, is not water soluble and is of adequate thickness to provide a sustainable bond capable of surviving multiple washes to textile-based products such as apparel and or accessories, headwear, crafts home furnishings and luggage. The room temperature pressure sensitive-patches may be transferred by simple pressure, thereby eliminating the burden and expense of thermal or mechanical (stitched) bonding. | 01-20-2011 |
