Patents by Inventor Chon Tam Le Dinh
Chon Tam Le Dinh has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9299166Abstract: Described herein are methods and devices that employ parallel compression of image data using a lossless compressor and a quantization compressor. As described, the lossless compressor generates a variable length compressed bit stream and the quantization compressor generates a fixed length compressed bit stream. The fixed length bit stream is always equal in size to a size requirement of an output memory block. The variable length bit stream may be stored in the output memory block unless it exceeds the memory requirement in size, in which case the fixed length bit stream may be stored to the output memory block.Type: GrantFiled: December 13, 2012Date of Patent: March 29, 2016Assignee: QUALCOMM IncorporatedInventors: Vladimir Lachine, Chon-Tam Le Dinh, Dinh Kha Le, Jeffrey Kar Fai Wong
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Publication number: 20140169480Abstract: Described herein are methods and devices that employ parallel compression of image data using a lossless compressor and a quantization compressor. As described, the lossless compressor generates a variable length compressed bit stream and the quantization compressor generates a fixed length compressed bit stream. The fixed length bit stream is always equal in size to a size requirement of an output memory block. The variable length bit stream may be stored in the output memory block unless it exceeds the memory requirement in size, in which case the fixed length bit stream may be stored to the output memory block.Type: ApplicationFiled: December 13, 2012Publication date: June 19, 2014Applicant: QUALCOMM IncorporatedInventors: Vladimir Lachine, Chon-Tam Le Dinh, Dinh Kha Le, Jeffrey Kar Fai Wong
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Publication number: 20130121419Abstract: Systems and methods for the reduction of motion compensation artifacts in a standard or high resolution image interpolation, more specifically to temporal luminance variation, are described. In one innovative aspect, a method of correcting temporal luminance variation (TLV) artifacts during frame rate conversion is provided. The method includes detecting TLV between a first image and a second image based on edge information, TLV characteristics, and motion estimation information. The method further includes determining the location of TLV artifacts in an interpolated image between the first image and the second image. The method also includes modifying the interpolated image based on the determination.Type: ApplicationFiled: July 13, 2012Publication date: May 16, 2013Applicant: QUALCOMM IncorporatedInventors: Chon-Tam Le Dinh, Dinh Kha Le, Phuc-Tue Le Dinh, David R. Hansen
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Patent number: 7860167Abstract: An efficient and non-iterative 3D post processing method and system is proposed for mosquito noise reduction, block localization and correction in DCT block-based decoded images. The 3D post processing is based on a simple classification that segments a picture in multiple regions such as Edge, Near Edge, Flat, Near Flat and Texture regions. The proposed technique comprises also an efficient and shape adaptive local power estimation for equivalent additive noise and provides simple noise power weighting for each above cited region. Temporal filtering configurations using Minimum Noise Variance Criterion are proposed for reducing temporally varying coding artifacts. A Minimum Mean Square Error or Minimum Mean Square Error-like noise reduction with robust and effective shape adaptive windowing is utilized for smoothing mosquito and/or random noise for the whole image, particularly for Edge regions.Type: GrantFiled: July 29, 2005Date of Patent: December 28, 2010Assignee: Algolith Inc.Inventors: Chon Tam Le Dinh, Ha Do Viet, Ngoc Lan Nguyen, Duong Tuan Nguyen, Thi Thanh Hien Nguyen
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Patent number: 7668397Abstract: A new approach to objective quality assessment of DCT-coded video sequences, with or without a reference is proposed. The system is comprised of a proprietary segmentation algorithm, a feature extraction process and a nonlinear feed-forward-type neural network for feature analysis. The methods mimic function of the human visual system (HVS): A neural network training algorithm is used for determining the optimal network weights and biases for both system modes of operation. The proposed method allows for assessment of DCT-coded video sequences without the original source being available (pseudo-reference mode). The pseudo-reference mode is also comprised of a proprietary DCT-coded video (MPEG) noise reducer (MNR), co-pending patent application No. 60/592,143.Type: GrantFiled: March 24, 2006Date of Patent: February 23, 2010Assignee: Algolith Inc.Inventors: Chon Tam Le Dinh, François Rossignol, Hong Thai Nguyen
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Patent number: 7545391Abstract: The present description discloses a method for resizing an input image having input pixels. The method comprises segmenting the input made into region types by assigning one of the region types to each one of the input pixels; and interpolating the input image according to the region type assigned to each one of the input pixels to produce a resized image having interpolated pixels.Type: GrantFiled: July 29, 2005Date of Patent: June 9, 2009Assignee: Algolith Inc.Inventors: Chon Tam Le Dinh, Ngoc Lan Nguyen
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Patent number: 7418149Abstract: A non-iterative 3D processing method and system is disclosed for generic noise reduction. The 3D noise reducer is based on a simple conversion of the five types of noise to equivalent additive noise of varying statistics. The proposed technique comprises also an efficient temporal filtering technique which combines Minimization of Output Noise Variance (MNV) and Embedded Motion Estimation (EME). The proposed temporal filtering technique may be furthermore combined with classical motion estimation and motion compensation for more efficient noise reducer. The proposed technique comprises also a spatial noise reducer which combines Minimum Mean Squared Error (MMSE) with robust and effective shape adaptive windowing (SAW) is utilized for smoothing random noise in the whole image, particularly for edge regions. Another modification to MMSE is also introduced for handling banding effect for eventual excessive filtering in slowly varying regions.Type: GrantFiled: July 29, 2005Date of Patent: August 26, 2008Assignee: Algolith Inc.Inventors: Chon Tam Le Dinh, Duong Tuan Nguyen, Thi Thanh Hien Nguyen
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Apparatus and method for adaptive spatial segmentation-based noise reducing for encoded image signal
Patent number: 7076113Abstract: An efficient and non-iterative post processing method and system is proposed for mosquito noise reduction in DCT block-based decoded images. The post-processing is based on a simple classification that segments a picture in multiple regions such as Edge, Near Edge, Flat, Near Flat and Texture regions. The proposed technique comprises also an efficient and shape adaptive local power estimation for equivalent additive noise and provides simple noise power weighting for each above cited region. An MMSE or MMSE-like noise reduction with robust and effective shape adaptive windowing is utilized for smoothing mosquito and/or random noise for the whole image, particularly for Edge regions. Finally, the proposed technique comprises also, for chrominance components, efficient shape adaptive local noise power estimation and correction.Type: GrantFiled: December 10, 2003Date of Patent: July 11, 2006Assignee: Miranda Technologies Inc.Inventor: Chon Tam Le Dinh -
Apparatus and method for adaptive spatial segmentation-based noise reducing for encoded image signal
Publication number: 20040120597Abstract: An efficient and non-iterative post processing method and system is proposed for mosquito noise reduction in DCT block-based decoded images. The post-processing is based on a simple classification that segments a picture in multiple regions such as Edge, Near Edge, Flat, Near Flat and Texture regions. The proposed technique comprises also an efficient and shape adaptive local power estimation for equivalent additive noise and provides simple noise power weighting for each above cited region. An MMSE or MMSE-like noise reduction with robust and effective shape adaptive windowing is utilized for smoothing mosquito and/or random noise for the whole image, particularly for Edge regions. Finally, the proposed technique comprises also, for chrominance components, efficient shape adaptive local noise power estimation and correction.Type: ApplicationFiled: December 10, 2003Publication date: June 24, 2004Inventor: Chon Tam Le Dinh -
Patent number: 6633683Abstract: The basic configuration of Single local Adaptive Window Spatial Noise Reducer (SAW-SNR) is based on a preliminary de-noising low-pass filter followed by homogenous region segmentation to the considered pixel in a given local window. The configuration is composed also of an adaptive local mean estimator, an adaptive local statistic estimator which is preferably an economic standard deviation (SD) estimator and finally, a minimum-mean-square-error (MMSE) based de-noising technique. The proposed segmentation configuration outperforms existing spatial noise reducers in term of subjective and objective performances, in term of edge preservation, noise reduction in both homogenous regions or picture edges and Peak Signal to noise Ratio (PSNR). A second configuration in the form of a Parallel Multiple local Adaptive Window Spatial Noise Reducer (Parallel M-AW-SNR), is a combination of several basic configurations which implements different segmented windows.Type: GrantFiled: June 26, 2000Date of Patent: October 14, 2003Assignee: Miranda Technologies Inc.Inventors: Chon Tam Le Dinh, Cong Toai Kieu, Ha Do Viet
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Patent number: 6181382Abstract: An electronic apparatus for converting a standard video signal having 59.94 fields per second into an HDTV video signal having 60.00 fields per second, by adding a number of video fields into each sequence of 1000 video fields. The apparatus detects the best moment for adding the new video field, so that the human eye does not perceive an abrupt change in the video image, by detecting the best motion conditions which occurs either when the image motion is high or very low. For adding the new video field, the apparatus uses an interpolation technique for creating two interpolated video fields which are inserted in place of one existing video field which is deleted. The apparatus also comprises a de-interlacer module for deinterlacing the 60 Hz video image, by using an advanced interpolation technique for calculating the missing video lines.Type: GrantFiled: June 2, 1998Date of Patent: January 30, 2001Assignee: Miranda Technologies Inc.Inventors: Cong Toai Kieu, Chon Tam Le Dinh, Daniel Poirier