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1. Optimizing ADMM and Over-Relaxed ADMM Parameters for Linear Quadratic Problems

Author

Song, Jintao, Lu, Wenqi, Lei, Yunwen, Tang, Yuchao, Pan, Zhenkuan, and Duan, Jinming

Subjects
Mathematics - Optimization and Control, Computer Science - Computer Vision and Pattern Recognition, Mathematics - Spectral Theory
Abstract

The Alternating Direction Method of Multipliers (ADMM) has gained significant attention across a broad spectrum of machine learning applications. Incorporating the over-relaxation technique shows potential for enhancing the convergence rate of ADMM. However, determining optimal algorithmic parameters, including both the associated penalty and relaxation parameters, often relies on empirical approaches tailored to specific problem domains and contextual scenarios. Incorrect parameter selection can significantly hinder ADMM's convergence rate. To address this challenge, in this paper we first propose a general approach to optimize the value of penalty parameter, followed by a novel closed-form formula to compute the optimal relaxation parameter in the context of linear quadratic problems (LQPs). We then experimentally validate our parameter selection methods through random instantiations and diverse imaging applications, encompassing diffeomorphic image registration, image deblurring, and MRI reconstruction., Comment: Accepted to AAAI 2024

Published
2023

2. Four-operator splitting algorithms for solving monotone inclusions

Author

Chen, Jinjian and Tang, Yuchao

Subjects
Mathematics - Optimization and Control, 47H05, 47J25, 65K05
Abstract

Monotone inclusions involving the sum of three maximally monotone operators or more have received much attention in recent years. In this paper, we propose three splitting algorithms for finding a zero of the sum of four monotone operators, which are two maximally monotone operators, one monotone Lipschitz operator, and one cocoercive operator. These three splitting algorithms are based on the forward-reflected-Douglas-Rachford splitting algorithm, backward-forward-reflected-backward splitting algorithm, and backward-reflected-forward-backward splitting algorithm, respectively. As applications, we apply the proposed algorithms to solve the monotone inclusions problem involving a finite sum of maximally monotone operators. Numerical results on the Projection on Minkowski sums of convex sets demonstrate the effectiveness of the proposed algorithms., Comment: 20 pages

Published
2022

8. Forward-partial inverse-half-forward splitting algorithm for solving monotone inclusions

Author

Briceño-Arias, Luis M., Chen, Jinjian, Roldán, Fernando, and Tang, Yuchao

Subjects
Mathematics - Optimization and Control, 47H05, 47H10, 65K05, 65K15, 90C25, 49M29
Abstract

In this paper we provide a splitting algorithm for solving coupled monotone inclusions in a real Hilbert space involving the sum of a normal cone to a vector subspace, a maximally monotone, a monotone-Lipschitzian, and a cocoercive operator. The proposed method takes advantage of the intrinsic properties of each operator and generalizes the method of partial inverses and the forward-backward-half forward splitting, among other methods. At each iteration, our algorithm needs two computations of the Lipschitzian operator while the cocoercive operator is activated only once. By using product space techniques, we derive a method for solving a composite monotone primal-dual inclusions including linear operators and we apply it to solve constrained composite convex optimization problems. Finally, we apply our algorithm to a constrained total variation least-squares problem and we compare its performance with efficient methods in the literature., Comment: 16 pages, 1 figure

Published
2021

10. An outer reflected forward-backward splitting algorithm for solving monotone inclusions

Author

Yu, Hui, Zong, Chunxiang, and Tang, Yuchao

Subjects
Mathematics - Optimization and Control, 49M29, 47H05, 47J20
Abstract

Monotone inclusions have wide applications in solving various convex optimization problems arising in signal and image processing, machine learning, and medical image reconstruction. In this paper, we propose a new splitting algorithm for finding a zero of the sum of a maximally monotone operator, a monotone Lipschitzian operator, and a cocoercive operator, which is called outer reflected forward-backward splitting algorithm. Under mild conditions on the iterative parameters, we prove the convergence of the proposed algorithm. As applications, we employ the proposed algorithm to solve composite monotone inclusions involving monotone Lipschitzian operator, cocoercive operator, and the parallel sum of operators. The advantage of the obtained algorithm is that it is a completely splitting algorithm, in which the Lipschitzian operator and the cocoercive operator are processed via explicit steps and the maximally monotone operators are processed via their resolvents., Comment: 15 pages

Published
2020

11. Convergence analysis of a relaxed inertial alternating minimization algorithm with applications

Author

Yang, Yang, Tang, Yuchao, and Peng, Jigen

Subjects
Mathematics - Optimization and Control, 47H05, 65K05, 65K15, 90C25
Abstract

The alternating direction method of multipliers (ADMM) is a popular method for solving convex separable minimization problems with linear equality constraints. The generalization of the two-block ADMM to the three-block ADMM is not trivial since the three-block ADMM is not convergence in general. Many variants of three-block ADMM have been developed with guarantee convergence. Besides the ADMM, the alternating minimization algorithm (AMA) is also an important algorithm for solving the convex separable minimization problem with linear equality constraints. The AMA is first proposed by Tseng, and it is equivalent to the forward-backward splitting algorithm applied to the corresponding dual problem. In this paper, we design a variant of three-block AMA, which is derived by employing an inertial extension of the three-operator splitting algorithm to the dual problem. Compared with three-block ADMM, the first subproblem of the proposed algorithm only minimizing the Lagrangian function. As a by-product, we obtain a relaxed algorithm of Davis and Yin. Under mild conditions on the parameters, we establish the convergence of the proposed algorithm in infinite-dimensional Hilbert spaces. Finally, we conduct numerical experiments on the stable principal component pursuit (SPCP) to verify the efficiency and effectiveness of the proposed algorithm., Comment: 27 pages

Published
2020

12. An inertial alternating direction method of multipliers for solving a two-block separable convex minimization problem

Author

Yang, Yang and Tang, Yuchao

Subjects
Mathematics - Optimization and Control, 65K05, 65K15, 90C25
Abstract

The alternating direction method of multipliers (ADMM) is a widely used method for solving many convex minimization models arising in signal and image processing. In this paper, we propose an inertial ADMM for solving a two-block separable convex minimization problem with linear equality constraints. This algorithm is obtained by making use of the inertial Douglas-Rachford splitting algorithm to the corresponding dual of the primal problem. We study the convergence analysis of the proposed algorithm in infinite-dimensional Hilbert spaces. Furthermore, we apply the proposed algorithm on the robust principal component pursuit problem and also compare it with other state-of-the-art algorithms. Numerical results demonstrate the advantage of the proposed algorithm., Comment: 22 pages

Published
2020
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13. Convergence analysis of an inexact inertial Krasnoselskii-Mann algorithm with applications

Author

Cui, Fuying, Yang, Yang, Tang, Yuchao, and Zhu, Chuanxi

Subjects
Mathematics - Functional Analysis
Abstract

The classical Krasnoselskii-Mann iteration is broadly used for approximating fixed points of nonexpansive operators. To accelerate the convergence of the Krasnoselskii-Mann iteration, the inertial methods were received much attention in recent years. In this paper, we propose an inexact inertial Krasnoselskii-Mann algorithm. In comparison with the original inertial Krasnoselskii-Mann algorithm, our algorithm allows error for updating the iterative sequence, which makes it more flexible and useful in practice. We establish weak convergence results for the proposed algorithm under different conditions on parameters and error terms. Furthermore, we provide a nonasymptotic convergence rate for the proposed algorithm. As applications, we propose and study inexact inertial proximal point algorithm and inexact inertial forward-backward splitting algorithm for solving monotone inclusion problems and the corresponding convex minimization problems., Comment: 18 pages

Published
2019

14. An inertial three-operator splitting algorithm with applications to image inpainting

Author

Cui, Fuying, Tang, Yuchao, and Yang, Yang

Subjects
Mathematics - Optimization and Control, 90C25, 65K05, 47H05
Abstract

The three-operators splitting algorithm is a popular operator splitting method for finding the zeros of the sum of three maximally monotone operators, with one of which is cocoercive operator. In this paper, we propose a class of inertial three-operator splitting algorithm. The convergence of the proposed algorithm is proved by applying the inertial Krasnoselskii-Mann iteration under certain conditions on the iterative parameters in real Hilbert spaces. As applications, we develop an inertial three-operator splitting algorithm to solve the convex minimization problem of the sum of three convex functions, where one of them is differentiable with Lipschitz continuous gradient. Finally, we conduct numerical experiments on a constrained image inpainting problem with nuclear norm regularization. Numerical results demonstrate the advantage of the proposed inertial three-operator splitting algorithms., Comment: 26 pages, 14 figures

Published
2019
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15. Application of Transformer in anomaly indicators forecasting of hydropower units

Author

LIN Yemin, WANG Ning, QIU Rongjie, TANG Yuchao, ZHOU Guanqun, LI Zezhou, and WANG Zhongya

Subjects
hydropower units, anomaly detection, dimensionality reduction, transformer, gan, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

The workloads of routine repair, maintenance, and abnormality detection of hydropower units are heavy. Therefore, traditional manual monitoring may leave out or misjudge abnormalities. Deep learning algorithms are used for data modeling and monitoring abnormalities to reduce costs and improve safety and reliability. With the help of the Transformer neural networks, the efficient and accurate modeling capacity of long-term sequences and the GAN (generative adversarial network) architecture data are used to generate a training strategy. A TransGAN model is used for generative modeling of the measured data of hydropower units and proactively detects abnormal data points. The TransGAN model achieves a detection accuracy rate of 97.76% and a recall rate of 99.23% in hydropower data measurement. The anomaly detection delay is less than 0.1 s. The real-time high-precision anomaly monitoring function is realized.

Published
2023
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16. Convergence analysis of a variable metric forward-backward splitting algorithm with applications

Author

Cui, Fuying, Tang, Yuchao, and Zhu, Chuanxi

Subjects
Mathematics - Functional Analysis, 90C25, 47H05
Abstract

The forward-backward splitting algorithm is a popular operator-splitting method for solving monotone inclusion of the sum of a maximal monotone operator and a cocoercive operator. In this paper, we present a new convergence analysis of a variable metric forward-backward splitting algorithm with extended relaxation parameters in real Hilbert spaces. We prove that this algorithm is weakly convergent when certain weak conditions are imposed upon the relaxation parameters. Consequently, we recover the forward-backward splitting algorithm with variable step sizes. As an application, we obtain a variable metric forward-backward splitting algorithm for solving the minimization problem of the sum of two convex functions, where one of them is differentiable with a Lipschitz continuous gradient. Furthermore, we discuss the applications of this algorithm to the fundamental of the variational inequalities problem, constrained convex minimization problem, and split feasibility problem. Numerical experimental results on LASSO problem in statistical learning demonstrate the effectiveness of the proposed iterative algorithm., Comment: 27 pages, 2 figures

Published
2018
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17. A Novel Fractional-Order Non-Convex TV α , p Model in Image Deblurring.

Author

Chen, Bao, Ding, Xiaohua, and Tang, Yuchao

Abstract

In this paper, we propose a non-convex model with fractional-order applied to image deblurring problems. In the new model, fractional-order gradients have been introduced to preserve detailed features, and a source term with a blurry kernel is used for deblurring. This aspect of the model ensures that it can handle various blurring scenarios. Additionally, we devise an algorithm that maintains the non-expansiveness of the support set for image gradients, serving as a critical component in our approach to address image deblurring issues. After approximate linearization, the algorithm can be easily implemented. Some standard image processing techniques similar to fast Fourier transform can be utilized. Global convergence has likewise been confirmed and established. Moreover, we have also demonstrated that the proposed deblurring algorithm exhibits edge preservation properties. Compared with several existing classic models, the proposed method maintains a good balance between detail preservation, edge preservation, and deblurring. In addition, compared with several classic methods, the proposed method improved PSNR and SSIM by 0.9733 and 0.0111, respectively. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Efficient primal-dual fixed point algorithm with dynamic stepsize for convex problems with applications to imaging restoration

Author

Wen, Meng, Yue, Shigang, Tang, Yuchao, and Peng, Jigen

Subjects
Mathematics - Optimization and Control
Abstract

We consider the problem of finding the minimization of the sum of a convex function and the composition of another convex function with a continuous linear operator from the view of fixed point algorithms based on proximity operators. We design a primal-dual fixed point algorithm with dynamic stepsize based on the proximity operator and obtain a scheme with a closed form solution for each iteration. Based on Modified Mann iteration and the firmly nonexpansive properties of the proximity operator, we achieve the convergence of the proposed algorithm., Comment: arXiv admin note: text overlap with arXiv:1104.1436 by other authors

Published
2016

21. A stochastic coordinate descent primal-dual algorithm with dynamic stepsize for large-scale composite optimization

Author

Wen, Meng, Yue, Shigang, Tang, Yuchao, and Peng, Jigen

Subjects
Mathematics - Optimization and Control
Abstract

In this paper we consider the problem of finding the minimizations of the sum of two convex functions and the composition of another convex function with a continuous linear operator. With the idea of coordinate descent, we design a stochastic coordinate descent primal-dual splitting algorithm with dynamic stepsize. Based on randomized Modified Krasnosel'skii-Mann iterations and the firmly nonexpansive properties of the proximity operator, we achieve the convergence of the proposed algorithms. Moreover, we give two applications of our method., Comment: arXiv admin note: substantial text overlap with arXiv:1407.0898 by other authors

Published
2016

22. Optimizing ADMM and Over-Relaxed ADMM Parameters for Linear Quadratic Problems

Author

Song, Jintao, Lu, Wenqi, Lei, Yunwen, Tang, Yuchao, Pan, Zhenkuan, Duan, Jinming, Song, Jintao, Lu, Wenqi, Lei, Yunwen, Tang, Yuchao, Pan, Zhenkuan, and Duan, Jinming

Abstract

The Alternating Direction Method of Multipliers (ADMM) has gained significant attention across a broad spectrum of machine learning applications. Incorporating the over-relaxation technique shows potential for enhancing the convergence rate of ADMM. However, determining optimal algorithmic parameters, including both the associated penalty and relaxation parameters, often relies on empirical approaches tailored to specific problem domains and contextual scenarios. Incorrect parameter selection can significantly hinder ADMM's convergence rate. To address this challenge, in this paper we first propose a general approach to optimize the value of penalty parameter, followed by a novel closed-form formula to compute the optimal relaxation parameter in the context of linear quadratic problems (LQPs). We then experimentally validate our parameter selection methods through random instantiations and diverse imaging applications, encompassing diffeomorphic image registration, image deblurring, and MRI reconstruction.

Published
2024

23. A Warm Restart Strategy for Solving Sudoku by Sparse Optimization Methods

Author

Tang, Yuchao, Wu, Zhenggang, and Zhu, Chuanxi

Subjects
Mathematics - Optimization and Control, Computer Science - Distributed, Parallel, and Cluster Computing, 90C05, 90C25
Abstract

This paper is concerned with the popular Sudoku problem. We proposed a warm restart strategy for solving Sudoku puzzles, based on the sparse optimization technique. Furthermore, we defined a new difficulty level for Sudoku puzzles. The efficiency of the proposed method is tested using a dataset of Sudoku puzzles, and the numerical results show that the accurate recovery rate can be enhanced from 84%+ to 99%+ using the L1 sparse optimization method., Comment: 11 pages,5 figures

Published
2015

35. Low-Rank and Total Variation Regularization with ℓ 0 Data Fidelity Constraint for Image Deblurring under Impulse Noise.

Author

Wang, Yuting, Tang, Yuchao, and Deng, Shirong

Subjects
BURST noise, IMAGE processing, PROBLEM solving
Abstract

Impulse noise removal is an important problem in the field of image processing. Although many methods exist to remove impulse noise, there is still room for improvement. This paper proposes a new method for removing impulse noise that combines the nuclear norm and the detection ℓ 0 TV model while considering the low-rank structure commonly found in visual images. The nuclear norm maintains this structure, while the detection ℓ 0 TV criterion promotes sparsity in the gradient domain, effectively removing impulse noise while preserving edges and other vital features. To solve the non-convex and non-smooth optimization problem, we use a mathematical process with equilibrium constraints (MPEC) to transform it. Subsequently, the proximal alternating direction multiplication algorithm is used to solve the transformed problem. The convergence of the algorithm is proven under mild conditions. Numerical experiments in denoising and deblurring show that for low-rank images, the proposed method outperforms ℓ 1 TV with detection, ℓ 0 TV and ℓ 0 OGSTV. [ABSTRACT FROM AUTHOR]

Published
2023
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37. Application research of micro and nano bubbles in water pollution control

Author

Liu Chang and Tang Yuchao

Subjects
Environmental sciences, GE1-350
Abstract

The article describes the characteristics of micro-nano bubbles in the water for a long time, large specific surface area, high gas-liquid mass transfer efficiency, high interface potential and free radical generation. The generation of micro-nano bubbles is introduced, such as dissolved gas release method and dispersion. Air method, electrolysis method, etc. It mainly summarizes the research and application of micro-nano bubbles in surface water treatment, groundwater remediation, industrial wastewater treatment and enhanced ozone treatment, as well as practical applications in ship operation, metal surface degreasing and fruit and vegetable growth.

Published
2019
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38. Effects of acid-heat combined treatment on sludge dewatering performance at low temperature

Author

Qian Jie, Tang Yuchao, and Zhang Qianqian

Subjects
Environmental sciences, GE1-350
Abstract

The effects of different initial pH value, temperature and heating time on sludge dewatering performance were studied by treating sludge with acid-heat combination at low temperature and taking dewatering rate (amount of filtrate per unit time) and dewatering degree (moisture content of mud cake) as indexes to evaluate the sludge dewatering performance. And the mechanism of action was preliminarily discussed by analyzing the concentration of SCOD, protein and polysaccharide in sludge supernatant, Zeta potential and floc morphology of sludge. The results showed that the concentration of organic matter in sludge supernatant increased significantly when the sludge was treated by acid-heat combination, which indicated that the method promoted the fragmentation and dissolution of sludge flocs, and the internal bound water was released more, at the same time, the decrease of Zeta potential and the increase of temperature were beneficial to the flocculation of sludge, which effectively improved the degree and rate of sludge dewatering. The optimal conditioning conditions were determined as follows: pH 3, temperature 90°C and heating time 40 min. Under such condition, the sludge dewatering rate reached 21.30 ml/min and the moisture content of mud cake decreased to 63.20%.

Published
2019
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43. Karyotype analysis of Lilium lancifolium and four related cultivars

Author

Tang, Yuchao, Yang, Panpan, Yang, Meihua, He, Guoren, Cao, Yuwei, Xu, Leifeng, and Ming, Jun

Subjects
karyotype, QH573-671, QH301-705.5, cultivars, Lilium lancifolium, chromosome, Biology (General), Cytology
Abstract

Lilium lancifolium is one of the most important species of genus Lilium. Besides ornamental value, it also has highly edible and medicinal properties. We investigated the karyotypes of L. lancifolium and four related cultivars. The results indicated that the ploidies of four cultivars varied from diploid to tetraploid. Both ‘Flore Pleno’ and ‘Red Velvet’ were triploid (2n=3x=36), consistenting with the wild species L. lancifolium. ‘Sweet Surrender’ was diploid (2n=2x=24), and ‘Red Life’ was tetraploid. All karyotypes of candidates belonged to 3B type except ‘Flore Pleno’, which belonged to 3A type. Karyotype symmetry analysis revealed that the wild species L. lancifolium had a middle value of A1, A2, and TF%, which meant that the cultivars related to L. lancifolium had different tendencies to symmetry compared to L. lancifolium, but whether they were higher or lower was unclear., Caryologia. International Journal of Cytology, Cytosystematics and Cytogenetics, Vol. 73 No. 3 (2020)

Published
2021

48. Effects of acid-heat combined treatment on sludge dewatering performance at low temperature

Author

Tang Yuchao, Jie Qian, and Zhang Qianqian

Subjects
lcsh:GE1-350, Combined treatment, 010504 meteorology & atmospheric sciences, Sludge dewatering, Chemistry, 0208 environmental biotechnology, 02 engineering and technology, Pulp and paper industry, 01 natural sciences, lcsh:Environmental sciences, 020801 environmental engineering, 0105 earth and related environmental sciences
Abstract

The effects of different initial pH value, temperature and heating time on sludge dewatering performance were studied by treating sludge with acid-heat combination at low temperature and taking dewatering rate (amount of filtrate per unit time) and dewatering degree (moisture content of mud cake) as indexes to evaluate the sludge dewatering performance. And the mechanism of action was preliminarily discussed by analyzing the concentration of SCOD, protein and polysaccharide in sludge supernatant, Zeta potential and floc morphology of sludge. The results showed that the concentration of organic matter in sludge supernatant increased significantly when the sludge was treated by acid-heat combination, which indicated that the method promoted the fragmentation and dissolution of sludge flocs, and the internal bound water was released more, at the same time, the decrease of Zeta potential and the increase of temperature were beneficial to the flocculation of sludge, which effectively improved the degree and rate of sludge dewatering. The optimal conditioning conditions were determined as follows: pH 3, temperature 90°C and heating time 40 min. Under such condition, the sludge dewatering rate reached 21.30 ml/min and the moisture content of mud cake decreased to 63.20%.

Published
2019

49. Tribological performance of rice husk ceramic particles as a solid additive in liquid paraffin

Author

Xianguo Hu, Karl D. Dearn, Yu Dongrui, Enzhu Hu, Kunhong Hu, Tang Yuchao, Yufu Xu, and Huiming Gu

Subjects
Materials science, Mechanical Engineering, Liquid paraffin, 02 engineering and technology, Surfaces and Interfaces, Tribology, 021001 nanoscience & nanotechnology, Husk, Surfaces, Coatings and Films, 020303 mechanical engineering & transports, 0203 mechanical engineering, Mechanics of Materials, visual_art, visual_art.visual_art_medium, Lubrication, Friction reduction, Ceramic, Composite material, 0210 nano-technology, Boundary lubrication, Tribometer
Abstract

Rice husk ceramic (RHC) particles were prepared and its effect on the lubrication performance of liquid paraffin (LP) was investigated using a four-ball tribometer to expand the comprehensive utilization of rice husk. The wear and friction mechanisms of RHC particles were also investigated. Results showed that RHC particles can strengthen the antiwear and friction reduction properties of LP in the presence of 2 wt% polyisobutylene succinimide (T154A) at 75 or 100 °C. The friction and wear mechanisms of RHC particles were ascribed to high temperature, which ensures the involvement of RHC particles in the formation of boundary lubrication film.

Published
2016

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