A Brief Introduction to Manifold Optimization

Hu, Jiang; Liu, Xin; Wen, Zaiwen; Yuan, Ya-xiang

doi:10.1007/s40305-020-00295-9

Cited by 142 publications

(77 citation statements)

References 107 publications

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“…By viewing the sphere M as a single nonlinear equality constraint, the classical methods for nonlinear programming (see e.g., [17] and the Matlab routine fmincon) can be used for solving (1.2). Viewing M as a simple embedded sub-manifold of R n , the recent developments on the manifold optimization (e.g., [1,7,10,11,25]) provide other efficient ways for (1.2). In particular, the Riemannian trust-region (RTR) method we used in Example 3.1 extends the classical well-known trust-region method (see e.g., [17,Chapter 4]) to a general Riemannian manifold.…”

Section: Algorithmsmentioning

confidence: 99%

A Nonlinear Eigenvalue Problem Associated with the Sum-Of-Rayleigh-Quotients Maximization

Chang¹

2021

CSIAM-AM

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Recent applications in the data science and wireless communications give rise to a particular Rayleigh-quotient maximization, namely, maximizing the sum-of-Rayleigh-quotients over a sphere constraint. Previously, it is shown that maximizing the sum of two Rayleigh quotients is related with a certain eigenvector-dependent nonlinear eigenvalue problem (NEPv), and any global maximizer must be an eigenvector associated with the largest eigenvalue of this NEPv. Based on such a principle for the global maximizer, the self-consistent field (SCF) iteration turns out to be an efficient numerical method. However, generalization of sum of two Rayleigh-quotients to the sum of an arbitrary number of Rayleigh-quotients maximization is not a trivial task. In this paper, we shall develop a new treatment based on the S-Lemma. The new argument, on one hand, handles the sum of two and three Rayleigh-quotients maximizations in a simple way, and also deals with certain general cases, on the other hand. Our result gives a characterization for the solution of this sum-of-Rayleigh-quotients maximization and provides theoretical foundation for an associated SCF iteration. Preliminary numerical results are reported to demonstrate the performance of the SCF iteration.

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Section: Algorithmsmentioning

confidence: 99%

A Nonlinear Eigenvalue Problem Associated with the Sum-Of-Rayleigh-Quotients Maximization

Chang¹

2021

CSIAM-AM

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“…In this section, we apply manifold optimization technique to obtain a sub-optimal solution of the above problem (16). The background on manifold optimization is illustrated in [57]- [59]. Also, application of this algorithm can be found in [60].…”

Section: Design Of Analog Precodermentioning

confidence: 99%

Estimation and Tracking for Millimeter Wave MIMO Systems Under Phase Noise Problem

2020

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“…where sym(M) denotes the symmetric part of M, i.e., sym(M): � ((M + M T )/2). We next introduce several different retraction operators on the Stiefel manifold at the current point X for a given step size t and descent direction ξ (one can refer to [27] for more details).…”

Section: Preliminariesmentioning

confidence: 99%

“…Numerical experiments and comparisons with other state-ofthe-art methods indicated that their proposed algorithm is very promising. Another popular second-order algorithm on Stiefel manifold is the Riemannian trust-region (RTR) algorithm [24][25][26][27][28], which has been successfully applied to various applications. In particular, Yang et al [29] presented the RTR algorithm for H 2 model reduction of bilinear systems, where the H 2 error norm is treated as a cost function on the Stiefel manifold.…”

Section: Introductionmentioning

confidence: 99%

Effective Algorithms for Solving Trace Minimization Problem in Multivariate Statistics

Wen

Zhou

et al. 2020

Mathematical Problems in Engineering

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This paper develops two novel and fast Riemannian second-order approaches for solving a class of matrix trace minimization problems with orthogonality constraints, which is widely applied in multivariate statistical analysis. The existing majorization method is guaranteed to converge but its convergence rate is at best linear. A hybrid Riemannian Newton-type algorithm with both global and quadratic convergence is proposed firstly. A Riemannian trust-region method based on the proposed Newton method is further provided. Some numerical tests and application to the least squares fitting of the DEDICOM model and the orthonormal INDSCAL model are given to demonstrate the efficiency of the proposed methods. Comparisons with some latest Riemannian gradient-type methods and some existing Riemannian second-order algorithms in the MATLAB toolbox Manopt are also presented.

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A Brief Introduction to Manifold Optimization

Cited by 142 publications

References 107 publications

A Nonlinear Eigenvalue Problem Associated with the Sum-Of-Rayleigh-Quotients Maximization

A Nonlinear Eigenvalue Problem Associated with the Sum-Of-Rayleigh-Quotients Maximization

Estimation and Tracking for Millimeter Wave MIMO Systems Under Phase Noise Problem

Effective Algorithms for Solving Trace Minimization Problem in Multivariate Statistics

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