Patent application number | Description | Published |
20100260401 | METHOD AND DEVICE FOR PROCESSING COMPUTERIZED TOMOGRAPHY IMAGES - A method of processing a computerized tomography image is disclosed. The method comprises preprocessing the image using contrast enhancement weight function, thereby providing a preprocessed image having a first dynamic range; and applying a companding procedure to the preprocessed image, so as to reduce the first dynamic range. | 10-14-2010 |
20110001842 | METHOD OF AND APPARATUS FOR PROCESSING IMAGES - A method suitable for processing a digital image is disclosed. The method comprises, for each picture element of the digital image, processing an achromatic intensity level of the picture element using a first adaptation procedure featuring a first effective saturation function of the achromatic intensity, to provide a first intermediate intensity level. The method further comprises processing the achromatic intensity level using a second adaptation procedure featuring a second effective saturation function of the achromatic intensity, to provide a second intermediate intensity level. The method further comprises combining the first and the second intermediate intensity levels to provide a new achromatic intensity level associated with the picture-element. | 01-06-2011 |
20120257808 | METHOD AND SYSTEM FOR PROCESSING AN IMAGE - A method of processing an image having a plurality of picture-elements is disclosed. The method comprises: preprocessing the image to selectively enhance contrast of some picture-elements of the image, and employing a companding procedure for the preprocessed image, thereby providing a processed image. The contrast enhancement optionally and preferably features a mapping function having a plateau region for diminishing image data with intensity levels below an intensity threshold, thereby providing a preprocessed image. | 10-11-2012 |
20130011029 | METHOD AND SYSTEM FOR DETECTING CONTOURS IN AN IMAGE - A method of processing an image is disclosed. The method comprises: decomposing the image into a plurality of different resolutions; and for each resolution, processing the image at the resolution to extract edge-orientation information; utilizing the edge-orientation information for identifying contours in the image; and transmitting at least the identified contours to a computer-readable medium. | 01-10-2013 |
20130148908 | METHOD AND SYSTEM FOR PROCESSING AN IMAGE FEATURING MULTIPLE SCALES - A method of processing an image is disclosed. The method comprises obtaining an image decomposed into a set of scaled images, each being characterized by a different image-scale; and calculating, for each of at least some scaled images, a relative luminance between the scaled image and another scaled image of the set, using intensities in the scaled image and intensities in the another scaled image. The method further comprises processing each scaled image using an adaptation procedure featuring an image-specific effective saturation function of the relative luminance, thereby providing a processed scaled image; combining at least some of the processed scaled images to provide a combined image; and outputting the combined image to a computer readable medium. | 06-13-2013 |
20140015994 | METHOD AND SYSTEM FOR REDUCING CHROMATIC ABERRATION - A method of processing a polychromatic image is disclosed. The method comprises, for each of at least a portion of the picture elements, assigning to the picture element a new color value for each individual color, and storing the new values in a computer readable medium. The new values are assigned by: processing each of a first and a second colors of the picture element, based, at least in part on first and second colors of peripheral picture elements, to respectively provide a first processed color value and a second processed color value; employing optimization for reducing error and for assigning to the picture element a new color value for each of the first and second colors; and assigning to the picture element a new color value for a third color calculated based, at least in part, on the new color values for the first and second colors. | 01-16-2014 |
20150256735 | METHOD AND SYSTEM FOR PROCESSING AN IMAGE FEATURING MULTIPLE SCALES - A method of processing an image is disclosed. The method comprises obtaining an image decomposed into a set of scaled images, each being characterized by a different image-scale; and calculating, for each of at least some scaled images, a relative luminance between the scaled image and another scaled image of the set, using intensities in the scaled image and intensities in the another scaled image. The method further comprises processing each scaled image using an adaptation procedure featuring an image-specific effective saturation function of the relative luminance, thereby providing a processed scaled image; combining at least some of the processed scaled images to provide a combined image; and outputting the combined image to a computer readable medium. | 09-10-2015 |
20160027162 | METHOD AND SYSTEM FOR PROCESSING AN IMAGE - A method of processing an image having a plurality of picture-elements is disclosed. The method comprises: preprocessing the image to selectively enhance contrast of some picture-elements of the image, and employing a companding procedure for the preprocessed image, thereby providing a processed image. The contrast enhancement optionally and preferably features a mapping function having a plateau region for diminishing image data with intensity levels below an intensity threshold, thereby providing a preprocessed image. | 01-28-2016 |
Patent application number | Description | Published |
20090125081 | Cochlear Implant Stimulation Artifacts - An artifact monitoring stimulation system and corresponding method are described. An implantable electrode stimulator applies an electrical stimulation pulse to target tissue using implantable electrode contacts. An artifact monitor module monitors the electrode contacts during and after the stimulation pulse to observe an artifact signal resulting from the stimulation pulse to determine a operating characteristic associated with the stimulation system, the stimulated tissue and/or electrode-electrolyte interface properties. | 05-14-2009 |
20100145411 | Method For Fitting A Cochlear Implant With Patient Feedback - A method is described for fitting to a patient user an audio prostheses having a set of operating parameters. An audio stimulation pattern is initiated to the audio prosthesis. A fit adjustment process is performed during the audio stimulation pattern, which includes: changing a set of selected operating parameter values. Patient feedback is received that indicates a subjective performance evaluation of operation of the audio prosthesis. The process is repeated (e.g., continuously) to collect performance evaluation data related to the operating parameter values. Then the operating parameters are set based on the performance evaluation data. | 06-10-2010 |
20110082519 | Hearing Implant Fitting - A system and method of fitting a cochlear implant of a patient includes analyzing data of one or more previously fitted cochlear implant users. Predicted fitting data for the patient is provided based on the analysis. Stimulation parameters of the cochlear implant are adjusted based, at least in part, on the predicted fitting data. Further steps are suggested to minimize the prediction error. | 04-07-2011 |
20120245655 | Post-Auricular Muscle Response Based Hearing Prosthesis Fitting - An arrangement is described for fitting a hearing prosthesis system to a prosthesis patient. The PAMR measurement determines a post-auricular muscle reflex (PAMR) response of the patient to an auditory stimulus signal. For example, the PAMR response may include a PAMR amplitude growth function or a PAMR threshold stimulus level at which a PAMR is measured in the patient. Then a patient fitting module sets an operating characteristic of the hearing prosthesis system based on the PAMR response. | 09-27-2012 |
20150157226 | Detecting Neuronal Action Potentials using a Sparse Signal Representation - A system and method detect neuronal action potential signals from tissue responding to electrical stimulation signals. A sparse signal space model for a set of tissue response recordings has a signal space separable into a plurality of disjoint component manifolds including a neural action potential (NAP) component manifold corresponding to tissue response to electrical stimulation signals. A response measurement module is configured to: i. map a tissue response measurement signal into the sparse signal model space to obtain a corresponding sparse signal representation, ii. project the sparse signal representation onto the NAP component manifold to obtain a sparse NAP component representation, iii. when the sparse NAP component representation is greater than a minimum threshold value, report and recover a detected NAP signal in the tissue response measurement signal. | 06-11-2015 |
20150173637 | Detecting Neuronal Action Potentials Using a Convolutive Compound Action Potential Model - A system and method detect neuronal action potential signals from tissue responding to electrical stimulation signals. A compound discharge latency distribution (CDLD) of the neural tissue is derived by deconvolving a tissue response measurement signal taken responsive to electrical stimulation of the neural tissue by a stimulation electrode, with an elementary unit response signal representing voltage change at a measurement electrode due to the electrical stimulation. The CDLD is compared to known physiological data to detect an NAP signal from the tissue response measurement signal. | 06-25-2015 |
20150223734 | Determination of Neuronal Action Potential Amplitude based on Multidimensional Differential Geometry - Arrangements are described for determining a physiological characteristic of the auditory pathway (as whole or selected parts such as an inner ear). Electrical stimulation pulses are delivered to inner ear neural tissue and corresponding tissue response signals are developed by measuring over time response of the auditory pathway to each electrical stimulation pulse, with each tissue response signal forming a response curve including at least one physiological landmark such as a local maximum and a local minimum. A multi-dimensional polynomial is fit over the tissue response signals, and calculation starting points are defined based on prominent physiologic landmarks such as a local maximum and a local minimum for one selected tissue response signal. A line of minimum principal curvature of the multi-dimensional polynomial over the plurality of tissue response signals that intersect the calculation starting points is calculated to determine a physiological characteristic of the auditory pathway. | 08-13-2015 |