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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12 Jul 2017TL;DR: In this article, a computer-implemented method for assessment and adjustment for an audio environment is presented, which includes obtaining a first audio signal captured by a device located in an environment.
Abstract: Example embodiments disclosed herein relate to assessment and adjustment for an audio environment. A computer-implemented method is provided. The method includes obtaining a first audio signal captured by a device located in an environment. The method also includes analyzing a characteristic of the first audio signal to determine an acoustic performance metric for the environment. The method further includes, in response to the acoustic performance metric being below a threshold, providing a first task for a user to perform based on the characteristic of the first audio signal. The first task is related to an adjustment to a setting of the environment. Embodiments in this regard further provide a corresponding computer program product. Corresponding system and computer program product are also disclosed.
5 citations
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24 Aug 2017TL;DR: In this article, the authors proposed a method for improving a low bit rate compressed and decompressed Higher Order Ambisonics HOA signal representation of a sound field, wherein the decompression provides a spatially sparse decoded HOA representation and a set of indices of coefficient sequences of this representation.
Abstract: The invention is suited for improving a low bit rate compressed and decompressed Higher Order Ambisonics HOA signal representation of a sound field, wherein the decompression provides a spatially sparse decoded HOA representation and a set of indices of coefficient sequences of this representation. From reconstructed signals of the original HOA representation a number of modified phase spectra signals are created using de-correlation filters, which modified phase spectra signals are uncorrelated with the signals of said original representation. The modified phase spectra signals are mixed with each other using predetermined mixing parameters, in order to provide a replicated ambient HOA component. Finally the spatially sparse decoded HOA representation is enhanced with the replicated time domain HOA representation.
5 citations
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01 Mar 2019TL;DR: In this article, a method to modify the output node value of a current node in the first set of nodes based on computing modified slopes between the current node and nodes surrounding the current vertex is presented.
Abstract: In a method to reconstruct a high dynamic range video signal, a decoder receives parameters in the input bitstream to generate a prediction function. Using the prediction function, it generates a first set of nodes for a first prediction lookup table, wherein each node is characterized by an input node value and an output node value. Then, it modifies the output node values of one or more of the first set of nodes to generate a second set of nodes for a second prediction lookup table, and generates output prediction values using the second lookup table. Low-complexity methods to modify the output node value of a current node in the first set of nodes based on computing modified slopes between the current node and nodes surrounds the current node are presented.
5 citations
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10 Oct 1995TL;DR: Analog soundtracks (LT, RT) are recorded on a single one of the three dye layers present in a tri-pack color motion picture film, one of which is used for the color picture information.
Abstract: Analog soundtracks (LT, RT) are recorded on a single one of the three dye layers present in a tri-pack color motion picture film, one of the same dye layers that is used for the color picture information. The single dye layer, preferably the cyan dye layer, is read out using a narrow spectrum, substantially monochromatic light source, preferably a red light-emitting diode (LED) (56), the spectrum of which is such as to be maximally absorbed by the dye layer and to remain well within the absorption range of the dye layer even when the dye layer color characteristics vary among film batches. The resulting lower-cost and environmentally-safer silverless analog audio sound tracks (LT, RT) have playback characteristics extremely close to conventional analog audio soundtracks prepared with silver.
5 citations
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04 Mar 2013TL;DR: In this paper, rate control techniques for encoding an input video sequence into a compressed coded bitstream with multiple coding passes are provided, where the final coding pass may comprise final splices with non-overlapping frames that do not extend into neighboring final splice.
Abstract: Rate control techniques are provided for encoding an input video sequence into a compressed coded bitstream with multiple coding passes. The final coding pass may comprise final splices with non-overlapping frames that do not extend into neighboring final splices. A final splice in the final coding pass may correspond to at least one non-final splice in a non-final coding pass. A non-final splice may have overlapping frames that extend into neighboring final splices in the final coding pass. The overlapping frames in the non-final splice may be used to derive complexity information about the neighboring final splices. The complexity information about the neighboring final splices, as derived from the overlapping frames, may be used to allocate or improve rate control related budgets in encoding the final splice into the compressed coded bitstream in the final coding pass.
5 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 |