导航
2022年论文|

1.Aidekon, Elie and Da Silva, William, Growth-fragmentation embedded in a planar Brownian excursion, Probability Theory and Related Fields, 2022, 183:125-166.

2.Cai, Yuan, Global vanishing viscosity limit for the two dimensional incompressible viscoelasticity in Lagrangian coordinates, Calculus of Variations and Partial Differential Equations, 61(2022), no.3, Paper No. 93, 35 pp.

3.蔡志杰,连铸切割的在线优化,数学建模及其应用,202211(2):67-79.

4.Chen, Bo-Yong and Zheng, Zhiyuan, Log-hyperconvexity index and Bergman kernel, International Journal of Mathematics,33(2022), no.12, Paper No. 2250081, 20 pp.

5.Chen, Bo-Yong; Xiong, Yuanpu, A plurisubharmonic Hopf lemma for domains with cusp conditions, Annales Polonici Mathematici, 129(2022), no.1, 1–15.

6.Chen, Bo-Yong and Zhang, Liyou: On the $p-$Bergman theory, Advances in Mathematics, 405 (2022), Paper No. 108516, 69pp.

7.Meng Chen, Yong Hu, Matteo Penegini, On projective 3-folds of general type with pg=2. Recent developments in algebraic geometry—to Miles Reid for his 70th birthday, 20–65, London Math. Soc. Lecture Note Ser., 478, Cambridge Univ. Press, Cambridge, 2022.

8.Xiaoman Chen, Yanlin Liu, Dapeng Zhou, Relative Equivariant Coarse Index and Relative L^2-Index, Science China Mathematics,66(2023), no.7, 1449–1472.

9.Chen Shuxing, High Speed Flight and Partial Differential Equations, Chinese Annals of Mathematics B, 43(5), 2022, 855-868.

10.Guo, Liming and Chen, Wenbin, A decoupled stabilized finite element method for the time-dependent Navier-Stokes/Biot problem, Mathematical Methods in the Applied Sciences, 2022, 45 (17), 10749-10774.

11.Chen, Wenbin; Liu, Qianqian; Shen, Jie, Error Estimates And Blow-Up Analysis Of A Finite-Element Approximation For The Parabolic-Elliptic Keller-Segel System, International Journal of Numerical Analysis And Modeling, 2022, 19 (2-3) , 275-298.

12.Duan, Chenghua; Chen, Wenbin; Liu, Chun; Wang, Cheng; Yue, Xingye, A Second Order Accurate, Energy Stable Numerical Scheme For The One-Dimensional Porous Medium Equation By An Energetic Variational Approach, Communications in Mathematical Sciences, 2022, 20 (4) , 987-1024.

13.Chen, Wenbin; Jing, Jianyu; Wang, Cheng; Wang, Xiaoming, A Positivity Preserving, Energy Stable Finite Difference Scheme for the Flory-Huggins-Cahn-Hilliard-Navier-Stokes System, Journal of Scientific Computing, 92 (2022), no. 2, Paper No. 31, 24 pp.

14.Yuan, Maoqin ; Chen, Wenbin; Wang, Cheng; Wise, Steven M ; Zhang, Zhengru , A Second Order Accurate in Time, Energy Stable Finite Element Scheme for the Flory-Huggins-Cahn-Hilliard Equation, Advances in Applied Mathematics and Mechanics,14(2022), no.6, 1477–1508.

15.Wang, Shufen; Zhou, Simin; Shi, Shuxun; Chen, Wenbin, Fully decoupled and energy stable BDF schemes for a class of Keller-Segel equations, Journal of Computational Physics, 449(2022), 18 pp.

16.Wenbin Chen, Jianyu Jing, Cheng Wang, Xiaoming Wang, and Steven M. Wise, A Modified Crank-Nicolson Numerical Scheme for the Flory-Huggins Cahn-Hilliard Model, Commun. Comput. Phys., Vol. 31, No. 1, pp. 60-93, 2022.

17.Wenbin Chen, Daozhi Hai, Cheng Wang, Shufen Wang, Xiaming Wang and Yichao Zhao. Error estimate of a decoupled numerical scheme for the Cahn-Hilliard-Stokes-Darcy system, IMA Journal of Numerical Analysis, (2022) 42, 2621–2655.

18.Chenghua Duan, Wenbin Chen, Chun Liu, Cheng Wang, and Shenggao Zhou. Convergence analysis of structure-preserving numerical methods for nonlinear Fokker–Planck equations with nonlocal interactions, Math Meth Appl Sci., 2022(45):3764–3781.

19.Wenbin Chen, Daozhi Han, Xiaoming Wang and Yichao Zhang. Conservative unconditionally stable decoupled numerical schemes for the Cahn–Hilliard–Navier–Stokes–Darcy–Boussinesq system, Numerical Methods for partial differential equations, 2022;38:1823–1842.

20.Chen, Yu; Cheng, Jin; Jiang, Yu, The conditional stability for unique continuation on the sphere for Helmholtz equations, Mathematical Methods in the Applied Sciences, 2022.

21.Cheng, Jin; Yamamoto, Masahiro, Continuation of solutions to elliptic and parabolic equations on hyperplanes and application to inverse source problems, Inverse Problems, 38 (2022), no. 8, Paper No. 085005, 23 pp.

22.Sui, Yun; Fu, Haiyang; Wang, Denghui; Xu, Feng; Feng, Shaojun; Cheng, Jin; Jin, Ya-Qiu, Sparse reconstruction of 3-d regional ionospheric tomography using data from a network of gnss reference stations, IEEE Transactions on Geoscience and Remote Sensing, 60(2022).

23.Apraiz, Jone;Cheng, Jin; Doubova, Anna; Fernández-Cara, Enrique; Yamamoto, Masahiro. Uniqueness and numerical reconstruction for inverse problems dealing with interval size search.Inverse Problems and Imaging, 16 (2022), no. 3, 569–594.

24.Chen, Yu; Cheng, Jin; Jiang, Yu; Liu, Keji A time delay dynamic system with external source for the local outbreak of 2019-nCoV. Appl. Anal. 101 (2022), no. 1, 146–157.

25.Qing Ding and Xiayu Dong, A Criterion of Nonparabolicity by the Ricci Curvature, Chinese Annals of Mathematics B, 43(5) (2022) 739–748.

26.Dong, Yuxin; Ren, Yibin; Yu, Weike, Prescribed Webster Scalar Curvatures on Compact Pseudo-Hermitian Manifolds, Journal of Geometric Analysis, 2022, 32 (5).

27.Dong, Yuxin, Yu, Weike, Generalized Maximum Principles and Stochastic Completeness for Pseudo-Hermitian Manifolds,Chinese Annals of Mathematics B, 43(6), 2022, 949–976

28.Zhou, Xuan; Fan, Engui, Long time asymptotics for the nonlocal mKdV equation with finite density initial data, Physica D-Nonlinear Phenomena, 2022,440.

29.Wang, Zhaoyu and Fan, Engui, Critical edge behavior in the singularly perturbed Pollaczek-Jacobi type unitary ensemble, Random Matrices-Theory and Applications, 2022, 11 (1).

30.Xun, Weikang; Fan, Engui, Long time and Painleve-type asymptotics for the Sasa-Satsuma equation in solitonic space time regions, Journal of Differential Equations, 2022, 329 , 89-130.

31.Luo, Jinghua; Fan, Engui, (delta)over-bar-dressing method for the nonlocal mKdV equation, Journal of Geometry and Physics, 2022, 177.

32.Yang, Yiling; Fan, Engui, On the long-time asymptotics of the modified Camassa-Holm equation in space-time solitonic regions, Advances in Mathematics, 402 (2022), Paper No. 108340, 78 pp.

33.Wen, Li-Li ; Fan, En-Gui; Chen, Yong, Multiple-high-order pole solutions for the NLS equation with quartic terms, Applied Mathematics Letters, 2022, 130.

34.Li, Zhi-Qiang; Tian, Shou-Fu; Yang, Jin-Jie; Fan, Engui, Soliton resolution for the complex short pulse equation with weighted Sobolev initial data in space-time solitonic regions, Journal Of Differential Equations, 2022, 329 , 31-88.

35.Yang, Xiao-Qian; Fan, En-Gui; Zhang, Ning, Propagation and modulational instability of Rossby waves in stratified fluids, Chinese Physics B, 2022, 31 (7).

36.Fan, EnGui; Qiao, Zhijun; Yuen, ManWai, The Cartesian analytical solutions for the N-dimensional compressible Navier-Stokes equations with density-dependent viscosity, Communications in Theoretical Physics, 2022, 74 (10).

37.Zhaoyu Wang, Engui Fan, Defocusing NLS equation with nonzero background:Large-time asymptotics in a solitonless region, Journal of Differential Equations 336 (2022) 334–373.

38.Qiaoyuan Cheng, Engui Fan, Long-time asymptotics for the focusing Fokas-Lenells equation in the solitonic region of space-time, Journal of Differential Equations 309 (2022) 883–948.

39.Yiling YANG, Engui FAN, Long-time Asymptotic Behavior for the Derivative Schr¨odinger Equation with Finite Density Type Initial Data, Chin. Chinese Annals of Mathematics B, 43(6), 2022, 893–948

40.Fu, Jixiang; Zhou, Xianchao, Scalar curvatures in almost Hermitian geometry and some applications, Science China-Mathematics,65(2022), no.12, 2583–2600.

41.Fu, Jixiang; Yang, Jieming, A Hermitian curvature flow.(English summary)Chinese Ann. Math. Ser. B43(2022), no.5, 845–854.

42.Li, Weilin; Zhu, Zengying; Gao, Weiguo; Liao, Wenjing, Stability and Super-Resolution of MUSIC and ESPRIT for Multi-Snapshot Spectral Estimation, Ieee Transactions on Signal Processing, 2022, 70, 4555-4570.

43.Gao, WeiguoLi, Yingzhou; Lu, Bichen, Triangularized Orthogonalization-Free Method for Solving Extreme Eigenvalue Problems, Journal of Scientific Computing, 93 (2022), no. 3, Paper No. 63.

44.Jinchi Chen; Weiguo Gao; Sihan Mao; Ke Wei, Vectorized Hankel Lift: A Convex Approach for Blind Super-Resolution of Point Sources, IEEE Transactions on Information Theory, 2022, 68(12), 8280-8309.

45.Shiqi Wei; Gus Xia; Yixiao Zhang; Liwei Lin; Weiguo Gao, Music Phrase Inpainting Using Long-Term Representation and Contrastive Loss, International Conference on AcousticsSpeech and Signal Processing, 2022.

46.Guo, Kunyu; Yan, Fugang, Toeplitz operators on the Hardy space over the infinite-dimensional polydisc, Acta Scientiarum Mathematicarum, 2022, 88 (1-2), 223-262.

47.Guo, Kunyu; Zhou, Qi, Szego's Theorem on Hardy Spaces Induced by Rotation-Invariant Borel Measures, Complex Analysis and Operator Theory, 2022, 16 (3).

48.Duan, Yongjiang; Guo, Kunyu; Wang, Siyu; Wang, Zipeng, Toeplitz Operators on a Class of Radially Weighted Harmonic Bergman Spaces, Potential Analysis, 2022.

49.Cheng, Guozheng; Fang, Xiang; Guo, Kunyu; Liu, Chao, A Gaussian Version Of Littlewood's Theorem For Random Power Series, Proceedings of the American Mathematical Society, 2022, 150 (8) , 3525-3536.

50.Douglas, Ronald G; Guo, Kunyu; Wang, Yi, On the p-essential normality of principal submodules of the Bergman module on strongly pseudoconvex domains, Advances in Mathematics, 407 (2022), Paper No. 108546, 41 pp.

51.Dan, Hui; Guo, Kunyu, Dilation theory and analytic model theory for doubly commuting sequences of C-center dot 0-contractions, Science China-Mathematics, 2022.

52.Chen, Jiecheng; Grafakos, Loukas; He, Danqing, Honzik, Petr; Slavikova, Lenka, Bilinear Maximal Functions Associated With Surfaces, Proceedings of the American Mathematical Society, 2022, 150 (4) , 1635-1639.

53.He, Zunwu; Hua, Bobo, Upper bounds for the Steklov eigenvalues on trees, Calculus of Variations and Partial Differential Equations, 61 (2022), no. 3, Paper No. 101, 15 pp.

54.Hua, Bobo, Dimensional Bounds for Ancient Caloric Functions on Graphs, International Mathematics Research Notices, 2022, 2022 (6) , 4022-4039.

55.Feng, Ke; Ge, Huabin; Hua, Bobo, Combinatorial Ricci flows and the hyperbolization of a class of compact 3-manifolds, Geometry & Topology, 2022, 26 (3) , 1349-1384.

56.Hua, Bobo; Wu, Jia-Yong, Gap Theorems for Ends of Smooth Metric Measure Spaces, Proceedings of the American Mathematical Society, 2022.

57.He, Zunwu; Hua, Bobo, Harmonic functions of polynomial growth on infinite penny graphs, Journal of the London Mathematical Society-Second Series, 2022, 105 (1) , 565-586.

58.Hua, Bobo; Su, Yanhui, Total Curvature of Planar Graphs with Nonnegative Combinatorial Curvature, Transactions of the American Mathematical Society, 375 (2022), no. 12, 8423–8444.

59.Hua, Bobo; Keller, Matthias; Lenz, Daniel; Schmidt, Marcel, On L-p Liouville Theorems for Dirichlet Forms, Springer Proceedings in Mathematics & Statistics, 2022, 394 ,201-221.

60.Feng, Ke; Ge, Huabin; Hua, Bobo; Xu, Xu; Combinatorial Ricci Flows with Applications to the Hyperbolization of Cusped 3-Manifolds. International Mathematics Research Notices, 2022, no. 20, 15549–15573. 53 (57).

61.Han, Xiaosen; Huang, Genggeng; Yang, Yisong, Coexisting vortices and antivortices generated by dually gauged harmonic maps, Journal of Mathematical Physics, 62(2021), no.10.

62.Zhou, Kai; Jin, Lu, Improvement of the uniqueness theorems of meromorphic maps of Cm into Pn(C). Complex Variables and Elliptic Equations. 67 (2022), no. 5, 1244–1261.

63.Korobkov, Mikhail; Lyu, WQ; Weng, SK, On The Existence Of Helical Invariant Solutions To Steady Navier-Stokes Equations, Siam Journal on Mathematical Analysis, 2022, 54 (3) , 3974-3996.

64.Korobkov, Mikhail; Ren, Xiao, Leray's plane stationary solutions at small Reynolds numbers, Journal De Mathematiques Pures Et Appliquees, 2022, 158 , 71-89.

65.Gu, Xumin; Lei, Zhen, Local Well-Posedness of Free-Boundary Incompressible Elastodynamics with Surface Tension via Vanishing Viscosity Limit, Archive for Rational Mechanics And Analysis, 2022, 245 (3) , 1285-1338.

66.Lei, Zhen; Ren, Xiao; Zhang, Qi S. A Liouville theorem for Axi-symmetric Navier-Stokes equations on R2×T1. Mathematische Annalen. 383 (2022), no. 1-2, 415–431. 35Q30.

67.Lei, Zhen; Shi, Lei; Zeng, Chenyu; Solving Parametric Partial Differential Equations with Deep Rectified Quadratic Unit Neural Networks. Journal of Scientific Computing. 93 (2022), no. 3, Paper No. 80.

68.Li, Tatsien; Rao, Bopeng, Asymptotic synchronization of a coupled system of wave equations on a rectangular domain with reflecting sides, Asymptotic Analysis,2022, 128 (1) , 85-102.

69.Li, Tatsien; Lu, Xing, Exact boundary synchronization for a kind of first order hyperbolic system, Esaim-Control Optimisation and Calculus of Variations, 28 (2022), Paper No. 34, 27 pp.

70.Li, Tatsien; Rao, Bopeng, A Note on the Indirect Controls for a Coupled System of Wave Equations, Chinese Annals of Mathematics Series B, 2022, 43 (3) , 359-372.

71.Lu, Xing; Li, Tatsien, Exact Boundary Controllability of Weak Solutions for a Kind of First Order Hyperbolic System - the HUM Method, Chinese Annals of Mathematics Series B, 2022, 43(1),1-16.

72.Li, Tatsien; Rao, Bopeng, Uniqueness theorem for a coupled system of wave equations with incomplete internal observation and application to approximate controllability, Comptes Rendus Mathématique, 2022, 360, 729-737.

73.Li, Tatsien; Rao, Bopeng, Uniqueness of Solution to Systems of Elliptic and Application to Asymptotic Synchronization of Linear Dissipative Systems II: Case of Multiple Feedback Dampings, Chinese Annals of Mathematics Series B, 2022, 43(5), 659-684.

74.Li, Hong-Quan; Sjogren, Peter, Estimates for operators related to the sub-laplacian with drift in heisenberg groups, Journal of Fourier Analysis and Applications, 28(2021), no.1.

75.Han, Jiequn; LI, Yingzhou; Lin, L. I. N.; Lu, Jianfeng; Zhang, Jiefu; Zhang, Linfeng, Universal Approximation of Symmetric and Anti-Symmetric Functions, Communications In Mathematical Sciences, 2022, 20 (5) , 1397-1408.

76.J. Bierman, Y. Li and J. Lu, Quantum Orbital Minimization Method for Excited States Calculation on Quantum Computer, Journal of Chemical Theory and Computation, 18(8), 4674-4689 (2022).

77.S. Jiao, Z. Zhang, K. Wu, L. Wan, H. Ma, J. Li, S. Chen, X. Qin, J. Liu, Z. Ding, J. Yang, Y. Li, W. Hu, L. Lin and C. Yang, KSSOLV 2.0: An efficient MATLAB toolbox for solving the Kohn-Sham equations with plane-wave basis set, Computer Physics Communications, 279, 108424 (2022).

78.Xu, Jin; Luo, Jiawen; Wang, Zhiqiang; Liang, Zhenguo, Reducibility of 1-D Quantum Harmonic Oscillator with New Unbounded Oscillatory Perturbations, Journal of Dynamics and Differential Equations, 270(2021), 343–389.

79.Liang, Zhenguo; Wang, Zhiqiang, Reducibility of quantum harmonic oscillator on R-d perturbed by a quasi-periodic potential with logarithmic decay, Calculus of Variations and Partial Differential Equations, 61 (2022), no. 4, Paper No. 155, 26 pp.

80.Liang, Zhenguo; Wang, Zhiqiang, Reducibility of 1D quantum harmonic oscillator with decaying conditions on the derivative of perturbation potentials, Nonlinearity, 2022, 35 (9) , 4850-4875.

81.Luo, Jiawen; Liang, Zhenguo; Zhao, Zhiyan, Growth of Sobolev Norms in 1-d Quantum Harmonic Oscillator with Polynomial Time Quasi-periodic Perturbation, Communications in Mathematical Physics., 2022, 392 (1) , 1-23.

82.Zhou, Shijie; Lai, Ying-Cheng; Lin, Wei, Stochastically Adaptive Control and Synchronization: From Globally One-Sided Lipschitzian to Only Locally Lipschitzian Systems\ast, Siam Journal on Applied Dynamical Systems, 2022, 21 (2) , 932-959.

83.Hou, Jia-Wen; Ma, Huan-Fei; He, Dake; Sun, Jie; Nie, Qing; Lin, Wei, Harvesting random embedding for high-frequency change-point detection in temporal complex systems, National Science Review, 2022, 9 (4).

84.Zhou, Shijie; Lin, Wei; Wu, Jianhong, Generalized invariance principles for discrete-time stochastic dynamical systems, Automatica, 2022,143.

85.Zou, Yukun; Yang, Wei; Lai, Junjie; Hou, Jiawen; Lin, Wei, Vaccination and Quarantine Effect on COVID-19 Transmission Dynamics Incorporating Chinese-Spring-Festival Travel Rush: Modeling and Simulations, Bulletin of Mathematical Biology, 2022, 84 (2).

86.Peng, Xiaoxiao; Lin, Wei, Complex Dynamics of Noise-Perturbed Excitatory-Inhibitory Neural Networks With Intra-Correlative and Inter-Independent Connections, Frontiers In Physiology, 2022, 13.

87.Sun, Yongzheng; Li, Wang; Li, Liang; Wen, Guanghui; Azaele, Sandro; Lin, Wei, Delay-induced directional switches and mean switching time in swarming systems, Physical Review Research, 2022, 4 (3).

88.Ying, Xiong; Leng, Si-Yang; Ma, Huan-Fei; Nie, Qing; Lai, Ying-Cheng; Lin, Wei, Continuity Scaling: A Rigorous Framework for Detecting and Quantifying Causality Accurately, Research, 2022.

89.Bao, Xiaoge; Hu, Qitong; Ji, Peng; Lin, Wei; Kurths, Jurgen; Nagler, Jan, Impact of basic network motifs on the collective response to perturbations, Nature Communications, 2022, 13 (1).

90.Qunxi Zhu, Yifei Shen, Dongsheng Li, and Wei Lin [2022] Neural piecewise-constant delay differential equations, 36th AAAI Conference on Artificial Intelligence (AAAI 22).

91.Jingdong Zhang, Qunxi Zhu, and Wei Lin [2022] Neural stochastic control, 36th Conference on Neural Information Processing Systems (NeurIPS 2022).

92.Lou, Hongwei, Improvement of constructing real numbers by Dedekind cuts,International Journal of Mathematical Education in Science and Technology,2022.

93.Isakov, Victor; Lu, Shuai; Xu, Boxi, A linearised inverse conductivity problem for the Maxwell system at a high frequency, Journal of Computational Physics, 455 (2022), Paper No. 111003, 18 pp.

94.Zou, Sen; Lu, Shuai; Xu, Boxi,Linearized Inverse Schrodinger Potential Problem With Partial Data And Its Deep Neural Network Inversion, Inverse problems and imaging, 16(2022), No. 6, 1669-1690.

95.Lu, Shuai; Mathé, Peter, Stochastic gradient descent for linear inverse problems in Hilbert spaces. Mathematics of Computation. 91 (2022), no. 336, 1763–1788.

96.Lu, Shuai; Salo, Mikko; Xu, Boxi, Increasing stability in the linearized inverse Schrödinger potential problem with power type nonlinearities. Inverse Problems 38 (2022), no. 6, Paper No. 065009, 25 pp.

97.Hua, Ning; He, Xiangnan; Feng, Jianfeng; Lu, Wenlian, Analytic Investigation for Synchronous Firing Patterns Propagation in Spiking Neural Networks, Neural Processing Letters, 2022, 54 (5) , 3893-3911.

98.Li, Xinjia; Lu, Wenlian, Particle network EnKF for large-scale data assimilation, Frontiers In Physics, 2022, 10.

99.Huang,Yaoting , Chen, Boyu, Lu, Wenlian et al. Asynchronous optimization of part logistics routing problem. Journal of Global Optimization, 2022, 82(4): 803-834.

100.Lu, Zhi and Zhang, Song, Fundamental Groups of Real Toric Spaces over Simple Polytopes,Acta Mathematica Sinica-English Series, 2022, 38 (10), 1887-1900.

101.Lu, Zhi; Zhang, Song, On the (CO)Homology of (Quotients of) Moment-Angle Manifolds Over Polygons, Acta Mathematica Scientia, 2022, 42 (6) , 2204-2222.

102.Lian, Jingfang; Han, Fei; Li, Hao; Lu, Zhi, Twisted Milnor Hypersurfaces, Pure and Applied Mathematics Quarterly, 2022, 18 (3) , 923-970.

103.Ma, Jiming and Wang, Zixi, Distinguishing 4-dimensional geometries via profinite completions, Geometriae Dedicata, 2022, 216 (5).

104.Ma, Ji Ming; Wang, Zi Xi, Efficiency of Profinite Rigidity of Triangle Groups, Acta Mathematica Sinica-English Series, 2022,38 (10), 1939-1948.

105.Lu, Hongbin; Qiu, Weiyuan; Yang, Fei, Asymptotics of the Hausdorff dimensions of the Julia sets of McMullen maps with error bounds, Nonlinearity, 2022, 35 (1) , 787-816.

106.Mu, Gui; Qin, Zhenyun, High order rational solitons and their dynamics of the 3-wave resonant interaction equation, Physica D-Nonlinear Phenomena, 2022,435.

107.Ma Wen-Xiu; Yong Xue-lin; Qin Zhen-yun; Gu Xiang; Zhou Yuan, A generalized Liouville's formula, Applied Mathematics-A Journal of Chinese Universities Series B,2022, 37 (3) , pp.470-474.

108.Ren, RF and Zhao, B, Spectral halo for Hilbert modular forms, Mathematische Annalen, 382 (2022), no. 1-2, 821–899.

109.Song, Zhuoqing; Shi, Lei; Pu, Shi; Yan, Ming, Compressed Gradient Tracking for Decentralized Optimization Over General Directed Networks, Ieee Transactions on Signal Processing, 2022, 70 , 1775-1787.

110.He, Fan; He, Mingzhen; Shi, Lei; Huang, Xiaolin, Global Search and Analysis for the Nonconvex Two-Level l(1) Penalty, IEEE Transactions on Neural Networks and Learning Systems, 2022.

111.Gao, Zhengqi; Tao, Jun; Su, Yangfeng; Zhou, Dian; Zeng, Xuan; Li, Xin, Fast Statistical Analysis of Rare Failure Events With Truncated Normal Distribution in High-Dimensional Variation Space, Ieee Transactions on Computer-Aided Design of Integrated Circuits and Systems,2022, 41 (3) , 789-793.

112.Tao, Jun; Yu, Handi; Su, Yangfeng; Zhou, Dian, Correlated Rare Failure Analysis via Asymptotic Probability Evaluation, IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, 2022.

113.Jiang, Yifan; Tian, Xueting, Existence and Distributional Chaos of Points that are Recurrent but Not Banach Recurrent, Journal of Dynamics and Differential Equations, 2022.

114.Tian, Xueting; Wu, Weisheng, Unstable entropies and dimension theory of partially hyperbolic systems, Nonlinearity,2022, 35 (1) ,658-680.

115.Huang, Ziyu; Tang, Shanjian, Mean Field Games with Common Noises and Conditional Distribution Dependent FBSDEs, Chinese Annals of Mathematics Series B, 2022,43(4), 523-548.

116.Hu, Ying; Tang, Shanjian, Stochastic Lq Control and Associated Riccati Equation Of Pdes Driven By State- And Control-Dependent White Noise, Siam Journal on Control and Optimization, 2022,60(1), 435-457.

117.Hibon, Helene; Hu, Ying; Tang, Shanjian, Mean-Field Type Quadratic Bsdes, Numerical Algebra Control and Optimization,13(2023), no.3-4, 392–412.

118.Sun, Dingqian; Liang, Gechun; Tang, Shanjian, Quantitative stability and numerical analysis of Markovian quadratic BSDEs with reflection, Probability Uncertainty and Quantitative Risk, 2022, 7 (1), 13-30.

119.Hu, Ying; Tang, Shanjian; Wang, Falei, Quadratic G-BSDEs with convex generators and unbounded terminal conditions, Stochastic Processes and Their Applications,2022, 153, 363-390.

120.Hu, Ying; Tang, Shanjian; Xu, Zuoquan Optimal control of SDEs with expected path constraints and related constrained FBSDEs. Probab. Uncertain. Quant. Risk 7 (2022), no. 4, 365–384

121.He, Xiaokai; Xie, Naqing, Hayward quasilocal energy of tori, Chinese Annals of Mathematics Series B, 2022,43(5), 773-784.

122.Chen, Xinxing; Xie, Jiansheng; Ying, Jiangang Range-renewal processes: SLLNs and power laws. Chinese Ann. Math. Ser. B 43 (2022), no. 1, 63–78. 60F15 (05C80).

123.Liu, ChangliXue, JungongLi, Ren-Cang,On nonlinear matrix equations from the first standard form.Ann. Math. Sci. Appl.7(2022), no.2, 169–191.

124.Hu, XiaoboXue, JungongYu, Xiandi, Path-wise Monte Carlo simulation for Greeks of worst-of-all autocallables under multi-variate Black-Scholes model.Quant. Finance22(2022), no.9, 1693–1716.

125.Lin, Zhaofeng; Qiu, Yanqi; Wang, Kai, Gaussian limit for determinantal point processes with J-Hermitian kernels, Science China-Mathematics, 2022.

126.Ding, Lijia; Wang, Kai, The L-p-L-q Boundedness and Compactness of Bergman Type Operators, Taiwanese Journal of Mathematics, 2022, 26 (4) , 713-740.

127.Wang, Libin; Wang, Ke, Global piecewise classical solutions to quasilinear hyperbolic systems on a tree-like network, Journal of Hyperbolic Differential Equations, 2022, 19 (03) , 523-548.

128.Yu, Hui; Heittokangas, Janne; Wang, Jun; Wen, Zhi Tao, Meromorphic Functions of Finite phi-order and Linear Askey-Wilson Divided Difference Equations, Acta Mathematica Sinica-English Series, 2022, 38 (2) , 371-383.

129.Heittokangas, Janne; Latreuch, Zinelaabidine; Wang, Jun; Zemirni, Amine on the limits of real-valued functions in sets involving ψ-density, and applications. J. Math. Anal. Appl. 507 (2022), no. 1, Paper No. 125787, 15 pp.

130.Wang, Zhizhang; Xiao, Ling. Entire spacelike hypersurfaces with constant σk curvature in Minkowski space. Mathematische Annalen. 382 (2022), no. 3-4, 1279–1322.

131.Jiao, Heming; Wang, Zhizhang. The Dirichlet problem for degenerate curvature equations. Journal of Functional Analysis. 283 (2022), no. 1, Paper No. 109485, 29 pp.

132.Wang, Xuezhong; Mo, Changxin; Qiao, Sanzheng, Wei, Yimin, Predefined-time convergent neural networks for solving the time- varying nonsingular multi-linear tensor equations, Neurocomputing, 2022, 472, 68-84.

133.Liu, Qiaohua; Jia, Zhigang; Wei, Yimin, Multidimensional Total Least Squares Problem With Linear Equality Constraints, Siam Journal on Matrix Analysis and Applications, 2022, 43 (1) , 124-150.

134.Liu, Tianhang; Wei, Yimin, The Abstract Laplacian Tensor of a Hypergraph with Applications in Clustering, Journal of Scientific Computing, 93 (2022), no. 1, Paper No. 7, 22 pp.

135.Chang, Shih Yu; Wei, Yimin, T-product tensors-part II: tail bounds for sums of random T-product tensors, Computational & Applied Mathematics, 2022, 41 (3).

136.Liu, Qiaohua; Li, Chuge; Wei, Yimin, Condition numbers of multidimensional mixed least squares-total least squares problems, Applied Numerical Mathematics,2022, 178 ,52-68.

137.Du, Shouqiang; Cui, Liyuan; Chen, Yuanyuan; Wei, Yimin, Stochastic Tensor Complementarity Problem with Discrete Distribution, Journal of Optimization Theory and Applications, 2022, 192 (3) , 912-929.

138.Che, Maolin; Chen, Juefei; Wei, Yimin, Perturbations of the Tcur Decomposition for Tensor Valued Data in the Tucker Format, Journal of Optimization Theory and Applications, 2022, 194 (3) , 852-877.

139.Xiong, Zikai; Wei, Yimin; Xu, Renjie; Xu, Yanwei, Low-rank traffic matrix completion with marginal information, Journal of Computational and Applied Mathematics, 2022, 410.

140.Chen, Juefei ; Wei, Yimin ; Xu, Yanwei , Tensor CUR Decomposition under T-Product and Its Perturbation, Numerical Functional Analysis and Optimization, 2022, 43 (6) , 698-722.

141.Che, Maolin; Wei, Yimin; Xu, Yanwei, Randomized algorithms for the computation of multilinear rank-(mu(1),mu(2),mu(3)) approximations, Journal of Global Optimization,2022.

142.Wang, Xuezhong; Che, Maolin; Wei, Yimin, Randomized Kaczmarz methods for tensor complementarity problems, Computational Optimization And Applications, 2022, 82 (3) , 595-615.

143.Zhang, Guihua; Li, Hanyu; Wei, Yimin, Componentwise perturbation analysis for the generalized Schur decomposition, Calcolo, 2022, 59 (2).

144.Che, Maolin; Wang, Xuezhong; Wei, Yimin; Zhao, Xile, Fast randomized tensor singular value thresholding for low-rank tensor optimization, Numerical Linear Algebra with Applications, 2022, 29 (6).

145.Che, Maolin; Wei, Yimin, An Efficient Algorithm for Computing the Approximate t-URV and its Applications, Journal of Scientific Computing, 92 (2022), no. 3, Paper No. 93, 27 pp.

146.Chang, Shih Yu; Wei, Yimin, Sherman-Morrison-Woodbury Identity For Tensors, Pacific Journal of Optimization, 18 (1) , 27-53.

147.Chang, Shih Yu; Wei, Yimin, T-square tensors-Part I: inequalities, Computational & Applied Mathematics, 2022, 41 (1).

148.Lin, Ying; Wei, Yimin; Ye, Qi, A Homotopy Method For Multikernel-Based Approximation, Journal of Nonlinear and Variational Analysis, 2022, 6 (2) , 139-154.

149.Stanimirovic, Predrag S; Mosic, Dijana; Wei, Yimin, Generalizations of composite inverses with certain image and/or kernel, Applied Mathematics and Computation,2022, 428.

150.Zhang, Li-Ping; Li, Zi-Cai; Wei, Yimin; Huang, Hung-Tsai, Spurious eigenvalue-free algorithms of the method of fundamental solutions for solving the Helmholtz equation in bounded multiply connected domains, Numerical Algorithms, 2022, 91 (2) , 895-932.

151.Wu, Hao; Yang, Yuchen, Well-Posedness of A Hydrodynamic Phase-Field System For Functionalized Membrane-Fluid Interaction, Discrete and Continuous Dynamical Systems-Series S, 2022, 15 (8) , 2345-2389.

152.Wu, Hao, A review on the Cahn-Hilliard equation: classical results and recent advances in dynamic boundary conditions, Electronic Research Archive, 2022, 30 (8) , 2788-2832.

153.Giorgini, Andrea; Grasselli, Maurizio; Wu, Hao, On the mass-conserving Allen-Cahn approximation for incompressible binary fluids, Journal of Functional Analysis, 2022, 283 (9) article no. 109631, 86 pages.

154.Xiao, Ti-Jun and Zhou, Rui-Han, Energy decay rate for a nonlinear von K?rm?n equation with memory, Applied Mathematics Letters, 2022, 133.

155.Xiao, Ti-Jun; Xu, Zhe, Controllability Problem for some second order equations with memory, Journal of Nonlinear and Convex Analysis, 2022, 23 (5) , 969-985.

156.Liang, Jin; Mu, Yunyi; Xiao, Ti-Jun, Nonlocal integro-differential equations of Sobolev type in Banach spaces involving psi-Caputo fractional derivative, Banach Journal of Mathematical Analysis, 2022, 16 (1).

157.Jin, Kun-Peng; Liang, Jin; Xiao, Ti-Jun, Dynamical behavior of the indirectly and locally memory-damped Timoshenko system? Communications in Nonlinear Science and Numerical Simulation, 2022,113.

158.Liang, Jin; Mu, Yunyi; Xiao, Ti-Jun, Impulsive differential equations involving general conformable fractional derivative in Banach spaces, Revista De La Real Academia De Ciencias Exactas Fisicas Y Naturales Serie A-Matematicas, 2022, 116 (3).

159.Liu, Hanbing ; Wang, Gengsheng ; Xu, Yashan; Yu, Huaiqiang, Characterizations Of Complete Stabilizability, Siam Journal on Control and Optimization, 2022, 60 (4) , 2040-2069.

160.Liu, Changli; Xue, Jungong; Li, Ren-Cang, On nonlinear matrix equations from the first standard form, Annals of Mathematical Sciences and Applications, 2022, 7 (2) , 169-191.

161.Ou, Li; Yang, Ling, Classification of Complete Degenerate Stationary Surfaces in R-3,R-1 Whose Gauss Maps Are Injective, Mathematics, 2022,10(19).

162.Shu, Xiang; Yan, Jun; Zhao, Kai, Viscosity subsolutions of Hamilton-Jacobi equations and invariant sets of contact Hamilton systems, Journal of Mathematical Physics, 2022, 63 (10).

163.Wang, Kaizhi; Yan, Jun; Zhao, Kai, Finite-Time Convergence Of Solutions Of Hamilton-Jacobi Equations, Proceedings of The American Mathematical Society, 2022, 150 (3) , 1187-1196.

164.Wang, Tiandong; Yan, Jun; Yuan, Yelie; Zhang, Panpan, Generating directed networks with predetermined assortativity measures, Statistics and Computing, 2022, 32 (5).

165.CHEN, Xinxing; XIE, Jiansheng; YING, Jiangang, Range-Renewal Processes: SLLNs and Power Laws, Chinese Annals of Mathematics Series B, 42(2022), no.1, 63-78.

166.Ying, Jiangang; Zheng, Yushu, On the one-sided boundedness of the local discrepancy of {n alpha}-sequences, Acta arithmetica, 2022,206(2), 97-114.

167.Hintz, Peter; Uhlmann, Gunther; Zhai, Jian, Communications in Partial Differential Equations, Comm. P.D.E., 2022, 47, 2363-2400.

168.Shen, Beibei and Zhang, Yunxin, A mechanochemical model of the forward/backward movement of motor protein kinesin-1, Journal of Biological Chemistry, 2022,298(6).

169.Li, Jingwei; Zhang, Yunxin, Existence and uniqueness of solution of the differential equation describing the TASEP-LK coupled transport process, Journal of Differential Equations, 2022, 316 , 762-802.

170.Downarowicz, Tomasz; Zhang, Guo Hua, The Symbolic Extension Theory in Topological Dynamics, Acta Mathematica Sinica-English Series, 2022, 38 (1) , 107-136.

171.Li, Jian; Oprocha, Piotr; Zhang, Guohua, Quasi-graphs, zero entropy and measures with discrete spectrum, Nonlinearity, 2022, 35 (3) , 1360-1379.

172.Wong, CH; Yang, X and Zhang, J, Neumann boundary problems for parabolic partial differential equations with divergence terms, Potential Analysis, 56 (2022), no. 4, 723–744.

173.Chi Hong Wong; Xue Yang; Jing Zhang; A Probabilistic Approach to Neumann Problems for Elliptic PDEs with Nonlinear Divergence Terms, Stochastic Processes and their Applications, 2022, 151: 101-126.

174.Dai, Dan; Xu, Shuai-Xia; Zhang, Lun, On the deformed Pearcey determinant, Advances In Mathematics, 400 (2022), Paper No. 108291, 64 pp.

175.Wang, Dong; Zhang, Lun, A vector Riemann-Hilbert approach to the Muttalib-Borodin ensembles, Journal of Functional Analysis, 2022, 282 (7).

176.Huang, Lin; Zhang, Lun, Higher Order Airy And Painleve Asymptotics For The Mkdv Hierarchy, Siam Journal on Mathematical Analysis, 2022, 54 (5) , 5291-5334.

177.Qi Zhang, Huaizhong Zhao, Mass-conserving stochastic partial differential equations and backward doubly stochastic differential equations. Journal of Differential Equations, 331 (2022), 1-49.

178.Chen, Yu; Zhang, Shuqin, Automatic Cell Type Annotation Using Marker Genes for Single-Cell RNA Sequencing Data, Biomolecules, 2022, 12 (10).

179.Jia, Jian-an; Zhang, Shuqin; Bai, Xin…Feng, Jianfeng, Sparse logistic regression revealed the associations between HBV PreS quasispecies and hepatocellular carcinoma, Virology Journal, 2022, 19 (1).

180.Wang Y, Sun F, Lin WZhang S. AC-PCoA: Adjustment for confounding factors using principal coordinate analysis. PLoS Comput Biol. 2022 Jul 13;18(7):e1010184.

181.浦赟,张永前,欧拉-玻尔兹曼方程整体光滑解,数学年刊202243卷第2期,第119-136页。

182.Qianfeng Li and Yongqian Zhang, An inverse problem for supersonic flow past a curved wedge, Nonlinear Analysis: Real World Applications 66 (2022), 103541.

183.Acosta, Sebastian; Uhlmann, Gunther; Zhai, Jian, Nonlinear Ultrasound Imaging Modeled By A Westervelt Equation, Siam Journal on Applied Mathematics, 2022, 82 (2) , 408-426.

184.R. Lai, G. Uhlmann, J. Zhai, H. Zhou, Single pixel X-ray transform and related inverse problems, SIAM Journal on Imaging Sciences., 2022, 15 (4) , 1894-1909

185.Chang, Jiaqi; Shi, Hongjun; Zhu, Song; Zhao, Donghua; Sun, Yongzheng, Time Cost for Consensus Of Stochastic Multiagent Systems With Pinning Control, IEEE Transactions on Systems Man Cybernetics-Systems,2022.

186.Chang, Jiaqi; Yin, Xiangxin; Ma, Caoyuan; Zhao, Donghua; Sun, Yongzheng, Estimation of the time cost with pinning control for stochastic complex networks, Electronic Research Archive, 2022, 30 (9) , 3509-3526.

187.Zhou, Yi, Generalized Persistence of Entropy Weak Solutions for System of Hyperbolic Conservation Laws, Chinese Annals of Mathematics Series B, 2022,43 (4), 499-508.

188.Lu, Peng; Zhou, Yi, Global existence of ideal invicid compressible and heat-conductive fluids with radial symmetry, Journal of Mathematical Physics, 2022, 63 (3).

189.Lai, Ning-An; Xiang, Wei; Zhou, Yi, Global Instability of Multi-Dimensional Plane Shocks for Isothermal Flow, Acta Mathematica Scientia, 2022, 42 (3) , 887-902.

190.Zhou, Zi-Xiang, Darboux transformation and exact solutions for two dimensional $A_{2n-1}^{(2)}$ Toda equations, Chinese Annals of Mathematics B, 2022, 43(5), 833-844.

 

 


  


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