Institution
Dolby Laboratories
Company•Amsterdam, Netherlands•
About: Dolby Laboratories is a company organization based out in Amsterdam, Netherlands. It is known for research contribution in the topics: Audio signal & Audio signal flow. The organization has 956 authors who have published 1726 publications receiving 29456 citations.
Papers published on a yearly basis
Papers
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06 Dec 2012TL;DR: Gamut transformations as mentioned in this paper alter tone, color or other characteristics of image data by interpolation, extrapolation, direct mapping of pixel values and/or modification of an expansion function.
Abstract: Image decoders encoders and transcoders incorporate gamut transformations. The gamut transformations alter tone, color or other characteristics of image data. The gamut transformations may comprise interpolation, extrapolation, direct mapping of pixel values and/or modification of an expansion function. Gamut transformations may be applied to generate image output (video or still) adapted for display on a target display.
10 citations
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25 Aug 2016TL;DR: In this article, a method for separating sources from audio content is presented, the audio content being of a multi-channel format based on a plurality of channels, and the method comprises performing a component analysis on the audio contents for each of the plurality channels to generate a plurality component, each of which comprising a plurality-of-time-frequency tiles in full frequency band.
Abstract: Example embodiments disclosed herein relate to source separation in audio content. A method for separating sources from audio content is disclosed, the audio content being of a multi-channel format based on a plurality of channels. The method comprises performing a component analysis on the audio content for each of the plurality of channels to generate a plurality of components, each of the plurality of components comprising a plurality of time-frequency tiles in full frequency band; generating at least one dominant source with at least one of the time-frequency tiles from the plurality of the components and separating the sources from the audio content by estimating spatial parameters and spectral parameters based on the dominant source. Corresponding system and computer program product are also disclosed.
10 citations
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10 Aug 2012TL;DR: In this paper, the authors proposed a method for enhancing multichannel audio, such as television audio, by applying a gain to the audio that has been smoothed between portions of the audio.
Abstract: The invention relates to audio signal processing. More specifically, the invention relates to enhancing multichannel audio, such as television audio, by applying a gain to the audio that has been smoothed between portions of the audio. The invention relates to methods, apparatus for performing such methods, and to software stored on a computer-readable medium for causing a computer to perform such methods.
10 citations
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01 Mar 2016TL;DR: The joint proposal introduces a set of new HDR coding technologies, including the IPT-PQ color space, the adaptive reshaping process, the color enhancement filters, and the adaptive transfer function, applied to the decoded output of an HEVC decoder.
Abstract: The paper presents the joint proposal by Arris, Dolby and InterDigital as a response to the Call-for-Evidence of the High Dynamic Range and Wide Color Gamut (HDR/WCG) video compression in MPEG. The joint proposal introduces a set of new HDR coding technologies, including the IPT-PQ color space, the adaptive reshaping process, the color enhancement filters, and the adaptive transfer function. These new coding technologies are applied to the decoded output of an HEVC decoder. Hence, no changes to the lower level logics of the HEVC decoder are required to implement the proposal. Formal subjective tests conducted by MPEG confirmed that the proposal could achieve significant subjective quality improvements over the HEVC Main10 anchors at similar bit rates for HDR/WCG video content.
10 citations
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TL;DR: A low‐cost system that enables the recovery of the visible light spectral signature of different types of light sources without requiring highly complex or specialized equipment and using just off‐the‐shelf, widely available components is proposed.
Abstract: Measuring the spectral power distribution of a light source, that is, the emission as a function of wavelength, typically requires the use of spectrophotometers or multi-spectral cameras. Here, we propose a low-cost system that enables the recovery of the visible light spectral signature of different types of light sources without requiring highly complex or specialized equipment and using just off-the-shelf, widely available components. To do this, a standard Digital Single-Lens Reflex DSLR camera and a diffraction filter are used, sacrificing the spatial dimension for spectral resolution. We present here the image formation model and the calibration process necessary to recover the spectrum, including spectral calibration and amplitude recovery. We also assess the robustness of our method and perform a detailed analysis exploring the parameters influencing its accuracy. Further, we show applications of the system in image processing and rendering.
10 citations
Authors
Showing all 959 results
Name | H-index | Papers | Citations |
---|---|---|---|
Wolfgang Heidrich | 64 | 312 | 15854 |
Rabab K. Ward | 56 | 549 | 14364 |
Lorne A. Whitehead | 42 | 232 | 6661 |
Scott J. Daly | 41 | 230 | 5543 |
Michael E. Miller | 40 | 225 | 5264 |
Alireza Marandi | 39 | 140 | 6116 |
Wolfgang Stuerzlinger | 35 | 230 | 5192 |
Lars Villemoes | 33 | 180 | 2815 |
Joan Serrà | 31 | 139 | 4046 |
Dong Tian | 31 | 116 | 3621 |
Peng Yin | 30 | 133 | 2454 |
Ning Xu | 28 | 117 | 2705 |
Nicolas R. Tsingos | 28 | 110 | 2749 |
Panos Nasiopoulos | 27 | 271 | 3706 |
Zhibo Chen | 27 | 344 | 3385 |