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Creators/Authors contains: "Yuan, Ming"

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  1. ; (, The Annals of Statistics)
    Free, publicly-accessible full text available April 1, 2026
  2. ; ; (, Annual Review of Statistics and Its Application)
    Large amounts of multidimensional data represented by multiway arrays or tensors are prevalent in modern applications across various fields such as chemometrics, genomics, physics, psychology, and signal processing. The structural complexity of such data provides vast new opportunities for modeling and analysis, but efficiently extracting information content from them, both statistically and computationally, presents unique and fundamental challenges. Addressing these challenges requires an interdisciplinary approach that brings together tools and insights from statistics, optimization, and numerical linear algebra, among other fields. Despite these hurdles, significant progress has been made in the past decade. This review seeks to examine some of the key advancements and identify common threads among them, under a number of different statistical settings. 
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    Free, publicly-accessible full text available March 7, 2026
  3. (, Annals of Physics)
    Free, publicly-accessible full text available November 1, 2025
  4. ; ; ; ; ; (, Physical Review A)
  5. ; ; (, Journal of the Royal Statistical Society Series B: Statistical Methodology)
    This paper introduces a novel framework called Mode-wise Principal Subspace Pursuit (MOP-UP) to extract hidden variations in both the row and column dimensions for matrix data. To enhance the understanding of the framework, we introduce a class of matrix-variate spiked covariance models that serve as inspiration for the development of the MOP-UP algorithm. The MOP-UP algorithm consists of two steps: Average Subspace Capture (ASC) and Alternating Projection. These steps are specifically designed to capture the row-wise and column-wise dimension-reduced subspaces which contain the most informative features of the data. ASC utilizes a novel average projection operator as initialization and achieves exact recovery in the noiseless setting. We analyse the convergence and non-asymptotic error bounds of MOP-UP, introducing a blockwise matrix eigenvalue perturbation bound that proves the desired bound, where classic perturbation bounds fail. The effectiveness and practical merits of the proposed framework are demonstrated through experiments on both simulated and real datasets. Lastly, we discuss generalizations of our approach to higher-order data. 
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    Full Text Available 
  6. ; (, Physical Review B)
  7. ; ; (, Physical Review B)
  8. ; ; (, Physical Review B)
  9. ; ; (, Physical Review B)
  10. ; ; ; ; ; ; (, Microscopy and Microanalysis)
    Full Text Available