Synthesis of Antimicrobial Peptoids

This paper presents a highly efficient, very accurate regression approach for face alignment. Our approach has two novel components: a set of local binary features, and a locality principle for learning those features. The locality principle guides us to learn a set of highly discriminative local binary features for each facial landmark independently. The obtained local binary features are used to jointly learn a linear regression for the final output. Our approach achieves the state-of-the-art results when tested on the current most challenging benchmarks. Furthermore, because extracting and regressing local binary features is computationally very cheap, our system is much faster than previous methods. It achieves over 3,000 fps on a desktop or 300 fps on a mobile phone for locating a few dozens of landmarks.

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Blessing of Dimensionality: High-Dimensional Feature and Its Efficient Compression for Face Verification

Chen

et al. 2013

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Bayesian Face Revisited: A Joint Formulation

et al. 2012

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Joint Cascade Face Detection and Alignment

et al. 2014

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Sterilization techniques for biodegradable scaffolds in tissue engineering applications

et al. 2016

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Biodegradable scaffolds have been extensively studied due to their wide applications in biomaterials and tissue engineering. However, infections associated with in vivo use of these scaffolds by different microbiological contaminants remain to be a significant challenge. This review focuses on different sterilization techniques including heat, chemical, irradiation, and other novel sterilization techniques for various biodegradable scaffolds. Comparisons of these techniques, including their sterilization mechanisms, post-sterilization effects, and sterilization efficiencies, are discussed.

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Learning Discriminative Reconstructions for Unsupervised Outlier Removal

et al. 2015

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Enabling long-lived organic room temperature phosphorescence in polymers by subunit interlocking

et al. 2019

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Long-lived room temperature phosphorescence (LRTP) is an attractive optical phenomenon in organic electronics and photonics. Despite the rapid advance, it is still a formidable challenge to explore a universal approach to obtain LRTP in amorphous polymers. Based on the traditional polyethylene derivatives, we herein present a facile and concise chemical strategy to achieve ultralong phosphorescence in polymers by ionic bonding cross-linking. Impressively, a record LRTP lifetime of up to 2.1 s in amorphous polymers under ambient conditions is set up. Moreover, multicolor long-lived phosphorescent emission can be procured by tuning the excitation wavelength in single-component polymer materials. These results outline a fundamental principle for the construction of polymer materials with LRTP, endowing traditional polymers with fresh features for potential applications.

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Xudong Cao

Face Alignment by Explicit Shape Regression

Face Alignment at 3000 FPS via Regressing Local Binary Features

Blessing of Dimensionality: High-Dimensional Feature and Its Efficient Compression for Face Verification

Bayesian Face Revisited: A Joint Formulation

Joint Cascade Face Detection and Alignment

Sterilization techniques for biodegradable scaffolds in tissue engineering applications

Learning Discriminative Reconstructions for Unsupervised Outlier Removal

Enabling long-lived organic room temperature phosphorescence in polymers by subunit interlocking

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