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1. Quantum Bayesian Computation

Author

Polson, Nick, Sokolov, Vadim, and Xu, Jianeng

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning, Mathematics - Quantum Algebra, Statistics - Computation
Abstract

Quantum Bayesian Computation (QBC) is an emerging field that levers the computational gains available from quantum computers to provide an exponential speed-up in Bayesian computation. Our paper adds to the literature in two ways. First, we show how von Neumann quantum measurement can be used to simulate machine learning algorithms such as Markov chain Monte Carlo (MCMC) and Deep Learning (DL) that are fundamental to Bayesian learning. Second, we describe data encoding methods needed to implement quantum machine learning including the counterparts to traditional feature extraction and kernel embeddings methods. Our goal then is to show how to apply quantum algorithms directly to statistical machine learning problems. On the theoretical side, we provide quantum versions of high dimensional regression, Gaussian processes (Q-GP) and stochastic gradient descent (Q-SGD). On the empirical side, we apply a Quantum FFT model to Chicago housing data. Finally, we conclude with directions for future research.

Published
2022

2. Merging Two Cultures: Deep and Statistical Learning

Author

Bhadra, Anindya, Datta, Jyotishka, Polson, Nick, Sokolov, Vadim, and Xu, Jianeng

Subjects
Statistics - Methodology, Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

Merging the two cultures of deep and statistical learning provides insights into structured high-dimensional data. Traditional statistical modeling is still a dominant strategy for structured tabular data. Deep learning can be viewed through the lens of generalized linear models (GLMs) with composite link functions. Sufficient dimensionality reduction (SDR) and sparsity performs nonlinear feature engineering. We show that prediction, interpolation and uncertainty quantification can be achieved using probabilistic methods at the output layer of the model. Thus a general framework for machine learning arises that first generates nonlinear features (a.k.a factors) via sparse regularization and stochastic gradient optimisation and second uses a stochastic output layer for predictive uncertainty. Rather than using shallow additive architectures as in many statistical models, deep learning uses layers of semi affine input transformations to provide a predictive rule. Applying these layers of transformations leads to a set of attributes (a.k.a features) to which predictive statistical methods can be applied. Thus we achieve the best of both worlds: scalability and fast predictive rule construction together with uncertainty quantification. Sparse regularisation with un-supervised or supervised learning finds the features. We clarify the duality between shallow and wide models such as PCA, PPR, RRR and deep but skinny architectures such as autoencoders, MLPs, CNN, and LSTM. The connection with data transformations is of practical importance for finding good network architectures. By incorporating probabilistic components at the output level we allow for predictive uncertainty. For interpolation we use deep Gaussian process and ReLU trees for classification. We provide applications to regression, classification and interpolation. Finally, we conclude with directions for future research., Comment: arXiv admin note: text overlap with arXiv:2106.14085

Published
2021

3. Deep Learning Partial Least Squares

Author

Polson, Nicholas, Sokolov, Vadim, and Xu, Jianeng

Subjects
Statistics - Methodology
Abstract

High dimensional data reduction techniques are provided by using partial least squares within deep learning. Our framework provides a nonlinear extension of PLS together with a disciplined approach to feature selection and architecture design in deep learning. This leads to a statistical interpretation of deep learning that is tailor made for predictive problems. We can use the tools of PLS, such as scree-plot, bi-plot to provide model diagnostics. Posterior predictive uncertainty is available using MCMC methods at the last layer. Thus we achieve the best of both worlds: scalability and fast predictive rule construction together with uncertainty quantification. Our key construct is to employ deep learning within PLS by predicting the output scores as a deep learner of the input scores. As with PLS our X-scores are constructed using SVD and applied to both regression and classification problems and are fast and scalable. Following Frank and Friedman 1993, we provide a Bayesian shrinkage interpretation of our nonlinear predictor. We introduce a variety of new partial least squares models: PLS-ReLU, PLS-Autoencoder, PLS-Trees and PLS-GP. To illustrate our methodology, we use simulated examples and the analysis of preferences of orange juice and predicting wine quality as a function of input characteristics. We also illustrate Brillinger's estimation procedure to provide the feature selection and data dimension reduction. Finally, we conclude with directions for future research.

Published
2021

4. Bayesian Inference for Gamma Models

Author

He, Jingyu, Polson, Nicholas, and Xu, Jianeng

Subjects
Statistics - Methodology, Statistics - Computation, Statistics - Machine Learning
Abstract

We use the theory of normal variance-mean mixtures to derive a data augmentation scheme for models that include gamma functions. Our methodology applies to many situations in statistics and machine learning, including Multinomial-Dirichlet distributions, Negative binomial regression, Poisson-Gamma hierarchical models, Extreme value models, to name but a few. All of those models include a gamma function which does not admit a natural conjugate prior distribution providing a significant challenge to inference and prediction. To provide a data augmentation strategy, we construct and develop the theory of the class of Exponential Reciprocal Gamma distributions. This allows scalable EM and MCMC algorithms to be developed. We illustrate our methodology on a number of examples, including gamma shape inference, negative binomial regression and Dirichlet allocation. Finally, we conclude with directions for future research., Comment: Duplicate submission of arXiv:1905.12141 Please check arXiv:1905.12141 for future update

Published
2021

5. Data Augementation with Polya Inverse Gamma

Author

He, Jingyu, Polson, Nicholas G., and Xu, Jianeng

Subjects
Statistics - Methodology, Statistics - Computation, Statistics - Machine Learning
Abstract

We use the theory of normal variance-mean mixtures to derive a data augmentation scheme for models that include gamma functions. Our methodology applies to many situations in statistics and machine learning, including Multinomial-Dirichlet distributions, Negative binomial regression, Poisson-Gamma hierarchical models, Extreme value models, to name but a few. All of those models include a gamma function which does not admit a natural conjugate prior distribution providing a significant challenge to inference and prediction. To provide a data augmentation strategy, we construct and develop the theory of the class of P\'olya Inverse Gamma distributions. This allows scalable EM and MCMC algorithms to be developed. We illustrate our methodology on a number of examples, including gamma shape inference, negative binomial regression and Dirichlet allocation. Finally, we conclude with directions for future research.

Published
2019

6. Deep Learning in Characteristics-Sorted Factor Models

Author

Feng, Guanhao, He, Jingyu, Polson, Nicholas G., and Xu, Jianeng

Subjects
Statistics - Methodology
Abstract

This paper presents an augmented deep factor model that generates latent factors for cross-sectional asset pricing. The conventional security sorting on firm characteristics for constructing long-short factor portfolio weights is nonlinear modeling, while factors are treated as inputs in linear models. We provide a structural deep learning framework to generalize the complete mechanism for fitting cross-sectional returns by firm characteristics through generating risk factors -- hidden layers. Our model has an economic-guided objective function that minimizes aggregated realized pricing errors. Empirical results on high-dimensional characteristics demonstrate robust asset pricing performance and strong investment improvements by identifying important raw characteristic sources.

Published
2018

7. Weighted Bayesian Bootstrap for Scalable Bayes

Author

Newton, Michael, Polson, Nicholas G., and Xu, Jianeng

Subjects
Statistics - Methodology
Abstract

We develop a weighted Bayesian Bootstrap (WBB) for machine learning and statistics. WBB provides uncertainty quantification by sampling from a high dimensional posterior distribution. WBB is computationally fast and scalable using only off-theshelf optimization software such as TensorFlow. We provide regularity conditions which apply to a wide range of machine learning and statistical models. We illustrate our methodology in regularized regression, trend filtering and deep learning. Finally, we conclude with directions for future research.

Published
2018
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8. Sparse Regularization in Marketing and Economics

Author

Feng, Guanhao, Polson, Nicholas, Wang, Yuexi, and Xu, Jianeng

Subjects
Statistics - Machine Learning
Abstract

Sparse alpha-norm regularization has many data-rich applications in Marketing and Economics. Alpha-norm, in contrast to lasso and ridge regularization, jumps to a sparse solution. This feature is attractive for ultra high-dimensional problems that occur in demand estimation and forecasting. The alpha-norm objective is nonconvex and requires coordinate descent and proximal operators to find the sparse solution. We study a typical marketing demand forecasting problem, grocery store sales for salty snacks, that has many dummy variables as controls. The key predictors of demand include price, equivalized volume, promotion, flavor, scent, and brand effects. By comparing with many commonly used machine learning methods, alpha-norm regularization achieves its goal of providing accurate out-of-sample estimates for the promotion lift effects. Finally, we conclude with directions for future research.

Published
2017

10. The Market for English Premier League (EPL) Odds

Author

Feng, Guanhao, Polson, Nicholas G., and Xu, Jianeng

Subjects
Statistics - Applications, Statistics - Methodology
Abstract

This paper employs a Skellam process to represent real-time betting odds for English Premier League (EPL) soccer games. Given a matrix of market odds on all possible score outcomes, we estimate the expected scoring rates for each team. The expected scoring rates then define the implied volatility of an EPL game. As events in the game evolve, we re-estimate the expected scoring rates and our implied volatility measure to provide a dynamic representation of the market's expectation of the game outcome. Using a dataset of 1520 EPL games from 2012-2016, we show how our model calibrates well to the game outcome. We illustrate our methodology on real-time market odds data for a game between Everton and West Ham in the 2015-2016 season. We show how the implied volatility for the outcome evolves as goals, red cards, and corner kicks occur. Finally, we conclude with directions for future research.

Published
2016
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11. 65‐5: Light Control Polarizer for Automotive as an Alternative to Light Control Films.

Author

Xu, Jianeng, Sakai, Akira, Kawahira, Yuichi, Saigusa, Ryosuke, Masahiro, Hasegawa, and Minoura, Kiyoshi

Subjects
POLARIZERS (Light), ANGLES
Abstract

We have developed a new polarizer system named "Light Control Polarizer (LCP)" that has a shading effect comparable to that of light control films (LCF) while significantly improving on‐axis luminance loss. The LCP exhibits a louver effect of 1.4% at a 60° polar angle and 1.1% at a ‐60° polar angle in vertical direction, with a 20% increase in on‐axis luminance over LCF and a 12% increase in contrast ratio (CR). These characteristics allow the LCP to work as an alternative to LCF providing with effective light shielding in the vertical direction without sacrificing display luminance. [ABSTRACT FROM AUTHOR]

Published
2024
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12. 49‐4: Invited Paper: Super High Ambient Contrast LCDs with Low Power Consumption.

Author

Kawahira, Yuichi, Hasegawa, Masahiro, Saigusa, Ryosuke, Xu, Jianeng, Oyama, Takeshi, Sakai, Akira, and Minoura, Kiyoshi

Subjects
CIRCULAR polarizers, FACTOR analysis, REFLECTANCE, PROTOTYPES, ANGLES
Abstract

The most effective way to improve display visibility in ambient light is to suppress the reflectance of the display. After conducting a thorough analysis of the factors contributing to unwanted reflection, specific layers were identified that required improvement. Subsequently, these elements were carefully optimized, resulting in a significant reduction of internal reflection to 0.53% for our 12.3" FFS‐mode prototype, compared to 1.12% in conventional LCDs. This improvement was achieved without the use of circular polarizers and has been demonstrated to provide excellent visibility in bright ambient conditions while allowing for reduced backlight brightness and lower power consumption. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Interactions of incoherent localized beams in a photorefractive medium

Author

Zhang, Yiqi, Belić, Milivoj R., Zheng, Huaibin, Chen, Haixia, Li, Changbiao, Xu, Jianeng, and Zhang, Yanpeng

Subjects
Nonlinear Sciences - Pattern Formation and Solitons, Physics - Optics
Abstract

We investigate numerically interactions between two bright or dark incoherent localized beams in an strontium barium niobate photorefractive crystal in one dimension, using the coherent density method. For the case of bright beams, if the interacting beams are in-phase, they attract each other during propagation and form bound breathers; if out-of-phase, the beams repel each other and fly away. The bright incoherent beams do not radiate much and form long-lived well-defined breathers or quasi-stable solitons. If the phase difference is $\pi/2$, the interacting beams may both attract or repel each other, depending on the interval between the two beams, the beam widths, and the degree of coherence. For the case of dark incoherent beams, in addition to the above the interactions also depend on the symmetry of the incident beams. As already known, an even-symmetric incident beam tends to split into a doublet, whereas an odd-symmetric incident beam tends to split into a triplet. When launched in pairs, the dark beams display dynamics consistent with such a picture and in general obey soliton-like conservation laws, so that the collisions are mostly elastic, leading to little energy and momentum exchange. But they also radiate and breathe while propagating. In all the cases, the smaller the interval between the two interacting beams, the stronger the mutual interaction. On the other hand, the larger the degree of incoherence, the weaker the interaction., Comment: 6 pages, 5 figures

Published
2014
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17. 49‐4: Invited Paper:Super High Ambient Contrast LCDs with Low Power Consumption

Author

Kawahira, Yuichi, Hasegawa, Masahiro, Saigusa, Ryosuke, Xu, Jianeng, Oyama, Takeshi, Sakai, Akira, and Minoura, Kiyoshi

Abstract

The most effective way to improve display visibility in ambient light is to suppress the reflectance of the display. After conducting a thorough analysis of the factors contributing to unwanted reflection, specific layers were identified that required improvement. Subsequently, these elements were carefully optimized, resulting in a significant reduction of internal reflection to 0.53% for our 12.3” FFS‐mode prototype, compared to 1.12% in conventional LCDs. This improvement was achieved without the use of circular polarizers and has been demonstrated to provide excellent visibility in bright ambient conditions while allowing for reduced backlight brightness and lower power consumption.

Published
2024
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18. Rapid and Practical Synthesis of gem‐Dibromoalkanes from Aldehydes by Tribromide Reagent.

Author

Ren, Bowen, Xu, Jianeng, and Liu, Chao

Subjects
*ALDEHYDES, *ORGANIC chemistry, *ALKYL bromides
Abstract

gem‐Dibromoalkanes are important synthetic building block in organic chemistry, but their preparation is still troublesome. Herein, we have developed a simple and practical protocol for the synthesis of gem‐dibromoalkanes from aldehydes using tetrabutylammonium tribromide and triphenyl phosphite. A variety of alkyl and aromatic aldehydes can be transformed into the corresponding products within 10 minutes. This protocol is also applicable to alcohols, and the configuration of chiral alcohol is inverted during the process with excellent enantiopurity. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Structural‐transformation‐induced Drastic Luminescence Changes in an Organic‐Inorganic Hybrid [ReN(CN)4]2− Salt Triggered by Chemical Stimuli

Author

Ohtani, Ryo, primary, Xu, Jianeng, additional, Yanagisawa, Junichi, additional, Iwai, Yuudai, additional, Ehara, Takumi, additional, Miyata, Kiyoshi, additional, Onda, Ken, additional, Pirillo, Jenny, additional, Hijikata, Yuh, additional, Hiraoka, Tomoaki, additional, Hayami, Shinya, additional, Le Ouay, Benjamin, additional, and Ohba, Masaaki, additional

Published
2023
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25. Direct Amination of Benzylic Pinacol Boronates by an Aminoazanium.

Author

Xu, Jianeng, Qin, Yucheng, and Liu, Chao

Subjects
*AMINATION, *SECONDARY amines, *ORGANOBORON compounds, *METHOXY group, *LEWIS acidity, *BORONIC esters
Abstract

Early aminations were usually limited to electrophilic borane derivatives and involved the use of iminophenyliodinane, [3] chloroamine, [4] alkyl azides, [7] or hydroxylamine derivatives [4][12] as amination reagents. Keywords: benzylic pinacol boronates; amination; asymmetric synthesis; secondary amines; aminomethylmorpholinium iodide EN benzylic pinacol boronates amination asymmetric synthesis secondary amines aminomethylmorpholinium iodide 2244 2248 5 10/31/23 20231127 NES 231127 Graph Organoboron compounds are versatile reagents in synthetic chemistry, mainly due to their powerful ability to undergo C-B bond derivations. [36] Although the H SB 2 sb N-DABCO has been nicely used in various aminations of pinacol boronates, [38] we found it difficult to use for the direct amination of benzylic pinacol boronates, as the protodeborylation product was produced as the major product (Scheme 1b). Later, in 2018, they reported a modified amination process with I t i -BuOK instead of I n i -BuLi as the base to solve the problematic amination of tertiary-alkyl pinacol boronates. [Extracted from the article]

Published
2023
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26. Structural‐transformation‐induced Drastic Luminescence Changes in an Organic‐Inorganic Hybrid [ReN(CN)4]2− Salt Triggered by Chemical Stimuli.

Author

Ohtani, Ryo, Xu, Jianeng, Yanagisawa, Junichi, Iwai, Yuudai, Ehara, Takumi, Miyata, Kiyoshi, Onda, Ken, Pirillo, Jenny, Hijikata, Yuh, Hiraoka, Tomoaki, Hayami, Shinya, Le Ouay, Benjamin, and Ohba, Masaaki

Subjects
*LUMINESCENCE, *REARRANGEMENTS (Chemistry), *REDSHIFT, *WATER vapor, *SALT, *PRUSSIAN blue
Abstract

We synthesized a (1‐propylpyridinium)2[ReN(CN)4]‐type organic–inorganic hybrid exhibiting water‐vapor‐induced drastic structural changes of the [ReN(CN)4]2− assemblies. Specifically, upon exposure to water vapor, dehydrated nitrido‐bridged chains were converted to hydrated cyanido‐bridged tetranuclear clusters via rearrangements of large molecular building units in the crystals. These switchable assembly forms display substantially different photo‐physical properties, although in both cases the emission is caused by a metal‐centered d–d transition. The nitrido‐bridged chain exhibited a near‐infrared (749 nm) emission, which blue‐shifted as the temperature increased, while a visible (561 nm) emission and its red shift was demonstrated by the cyanido‐bridged cluster. [ABSTRACT FROM AUTHOR]

Published
2023
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28. Essays in Bayesian Inference and Deep Learning

Author

Xu, Jianeng

Subjects
Statistics, FOS: Mathematics, Physics::History of Physics
Abstract

I have written three essays in the area of Bayesian inference and deep learning. The first essay uses the theory of normal variance-mean mixtures to derive a data augmentation scheme for models that include gamma functions. The second essay introduces and develops a weighted Bayesian bootstrap for machine learning and statistics. The last essay studies the characteristics-sorted factor model in empirical asset pricing and designs a nonreduced-form feedforward neural network with the non-arbitrage objective to minimize pricing errors.

Published
2021
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31. Weighted Bayesian bootstrap for scalable posterior distributions.

Author

Newton, Michael A., Polson, Nicholas G., and Xu, Jianeng

Subjects
MONTE Carlo method, MACHINE learning, MARKOV chain Monte Carlo, STATISTICAL models
Abstract

Copyright of Canadian Journal of Statistics is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2021
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34. Synthesis of Allylboronates via Zweifel‐type Deprotonative Olefination.

Author

Xu, Nuo, Xu, Jianeng, Zhu, Qing, and Liu, Chao

Subjects
*VALUE engineering, *ALKENES
Abstract

A method for the synthesis of allylboronates via Zweifel‐type deprotonative olefination was demonstrated. Tetrasubstituted vinylboronates were used as the substrates. NCS (N‐chlorosuccinimide) was used as a bifunctional additive, electrophile and base. This method exhibited a different elimination strategy in Zweifel type transformation to afford allylboronates. The homo‐alcohols and alkenes were stereoselective synthesized from the obtained allylboronates, demonstrating the synthetic value of this methodology. [ABSTRACT FROM AUTHOR]

Published
2021
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46. Amorphous Oxide Thin Film Transistors with Nitrogen-doped Active Layers.

Author

Xie, Haiting, Wu, Qi, Xu, Ling, Xu, Jianeng, Zhang, Lei, Liu, Guochao, and Dong, Chengyuan

Subjects
AMORPHOUS substances, THIN film transistor manufacturing, DOPED semiconductors
Abstract

Amorphous oxide semiconductor (AOS) thin film transistors (TFTs) with various nitrogen-doped active layers were studied. Compared with the oxygen-doping, the nitrogen-doping technology could moderately rather than significantly suppress the oxygen vacancies in the channel. Importantly, the doublestacked channel layers (DSCL) including different nitrogendoped AOS films were proposed and investigated, proving that the proper combination of the nitrogen doping and DSCL structure could effectively improve the electrical performance of AOS TFTs. [ABSTRACT FROM AUTHOR]

Published
2016
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47. Stereoselective Synthesis of Trisubstituted Vinylboronates from Ketone Enolates Triggered by 1,3-Metalate Rearrangement of Lithium Enolates.

Author

Hu Y, Sun W, Zhang T, Xu N, Xu J, Lan Y, and Liu C

Abstract

An unprecedented stereoselective synthesis of trisubstituted vinylboronates is reported to proceed by direct borylation of lithium ketone enolates under transition-metal-free conditions. The stereospecific C-O borylation of lithium enolates was triggered by a carbonyl-induced 1,3-metalate rearrangement via a C-bound boron enolate. DFT calculations and control experiments revealed that the stereoselectivity is controlled by sterics. A variety of stereospecific trisubstituted vinylboronates, together with several tetrasubstituted vinylboronates, were conveniently synthesized with the newly developed methodology. Based on the transformation of stereospecific vinylboronate, a single isomer of Dienestrol was efficiently obtained., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2019
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