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We demonstrate that DCA denoising improves a diverse set of typical scRNA-seq data analyses using simulated and real datasets.
2
Principal component analysis is used as a denoising technique by including only low-order components to approximate the EPRI projection data.
3
SCALE substantially outperforms the other tools in all aspects of scATAC-seq data analysis, including visualization, clustering, and denoising and imputation.
4
We found that the curvelet-denoising filter followed by FIRE, a process we call CT-FIRE, outperforms the other algorithms under investigation.
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The resulting framework also incorporates a novel outlier detection mechanism based on a denoising autoencoder that is shown to improve performance.
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Comprehensive experiments on widely used benchmarks demonstrate that the proposed method significantly surpasses existing methods on the task of real-world image denoising.
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However, noise due to amplification and dropout may obstruct analyses, so scalable denoising methods for increasingly large but sparse scRNA-seq data are needed.
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We propose a Deep Boosting Framework (DBF) for real-world image denoising by integrating the deep learning technique into the boosting algorithm.
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The capabilities of the proposed method are first validated on several representative simulation tasks including non-blind and blind Gaussian denoising and JPEG image deblocking.
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Moreover, we conduct comprehensive analysis on the domain shift issue for real-world denoising and propose an effective one-shot domain transfer scheme to address this issue.
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This study aimed to prospectively validate VI-RADS using a next-generation MRI scanner and to investigate the usefulness of denoising deep learning reconstruction (dDLR).
12
We demonstrate that DCA denoising improves a diverse set of typical scRNA-seq data analyses using simulated and real datasets.
13
Principal component analysis is used as a denoising technique by including only low-order components to approximate the EPRI projection data.
14
SCALE substantially outperforms the other tools in all aspects of scATAC-seq data analysis, including visualization, clustering, and denoising and imputation.
15
We found that the curvelet-denoising filter followed by FIRE, a process we call CT-FIRE, outperforms the other algorithms under investigation.
16
The resulting framework also incorporates a novel outlier detection mechanism based on a denoising autoencoder that is shown to improve performance.