1.沈继红，蔡志杰，李晓乐，炉温曲线的数学模型及求解，数学建模及其应用，2021，10(1):62-72.

2.蔡景波，蔡志杰，基于深度学习模型预测财务造假的上市公司，数学建模及其应用，2021，10(3):54-59 (通讯作者).

3.邵为希，杨坦，蔡志杰，旅游评论文本分析，数学建模及其应用，2021，10(4):51-63.

4.Chen, BY, Every bounded pseudo-convex domain with Holder boundary is hyperconvex, Bulletin of the London Mathematical Society, 2021, 53 (4), pp.1009-1015

5.Bo-Yong Chen and Xu Wang, Bergman kernel and oscillation theory of plurisubharmonic functions, Math. Z. 297 (2021), 1507-1527.

6.Chen, Meng; Hu, Yong; Penegini, Matteo, On projective threefolds of general type with small positive geometric genus, Electronic research archive, 29(2021), no.3, 2293-2323.

7.Meng Chen, Yong Hu. On an open problem of characterizing the birationality of 4K, Communications in Analysis and Geometry 29 (2021), No. 7, 1545--1557.

8.Chen, Jheng-Jie; Chen, Jungkai Alfred; Chen, Meng; Jiang, Zhi. On quint-canonical birationality of irregular threefolds. Proc. Lond. Math. Soc. (3) 122 (2021), no. 2, 234–258.

9.Duan, CH; Chen, WB;Liu, C; Yue, XY; Zhou, SG; Zhou, SG, Structure-preserving numerical methods for nonlinear fokker-planck equations with nonlocal interactions by an energetic variational approach, Siam Journal on Scientific Computing, 2021, 43 (1), pp. B82-B107.

10.Yuan, MQ; Chen, WB;Wang, C ; Wise, SM; Zhang, ZR, An Energy Stable Finite Element Scheme for the Three-Component Cahn-Hilliard-Type Model for Macromolecular Microsphere Composite Hydrogels, Journal of Scientific Computing, 87 (2021), no. 3, Paper No. 78, 30 pp.

11.Wenbin Chen, Shufen Wang and XiaomingWang. (2021). Energy Stable Arbitrary Order ETD-MS Method for Gradient Flows with Lipschitz Nonlinearity. CSIAM Transactions on Applied Mathematics. 2 (3). 460-483.

12.李金洋, 杨能, 陈奥林, 陈文斌, 基于上市公司投资者关系管理的因子选股策略研究, 金融经济, 9:46-58,2021.

13.Wei Xu, Cheng Wang, Mingyan He, Wenbin Chen, Weimin Han and Ziping Huang, Numerical analysis of doubly-history dependent variational inequalities in contact mechanics, Fixed Point Theory and Algorithms for Sciences and Engineering, 2021, Paper No. 24, 21 pp.

14.Chenghua Duan, Wenbin Chen, Chun Liu, Cheng Wang and Xingye Yue. A second order accurate, energy stable numerical scheme for the one-dimensional porous medium equation by an energetic variational approach.Communications in Mathematical Sciences, Vol. 43, No. 1, pp. B82--B107, 2021.

15.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. 2021;1–18.

16.Zheng, XC; Li, YQ; Cheng, J; Wang, H, Inverting the variable fractional order in a variable-order space-fractional diffusion equation with variable diffusivity: Analysis and simulation, Journal of Inverse and Ill-Posed Problems, 2021, 29 (2), pp.219-231

17.Cheng, J; Zhang, JT and Zhong, M, Extract the information from big data with randomly distributed noise, Journal of Inverse and Ill-Posed Problems, 2021, 29 (4), pp.525-541

18.Chen, Y; Cheng, J; (...); Xu, SX, Numerical method for parameter inference of systems of nonlinear ordinary differential equations with partial observations, Royal Society Open Science, 2021, 8 (7).

19.Qing Ding and Shiping Zhong, On vortex filament in 3-spaces and its generalization, Sci. China Math. vol.64, (2021) 1331-1348

20.Dong, YX and Lin, HZ, Gradient Estimate and Liouville Theorems for p-Harmonic Maps, Journal of Geometric Analysis, 2021, 31 (8), pp.8318-8333.

21.Dong, Yuxin; Ren, Yibin; Yu, Weike, Schwarz type lemmas for pseudo-Hermitian manifolds. ,J. Geom. Anal. 31 (2021), no. 3, 3161–3195.

22.Chong, Tian; Dong, Yuxin; Ren, Yibin; Yu, Weike, Schwarz-type lemmas for generalized holomorphic maps between pseudo-Hermitian manifolds and Hermitian manifolds. Bull. Lond. Math. Soc. 53 (2021), no. 1, 26–41.

23.Zhao, Y and Fan, EG, Inverse Scattering Transformation for the Fokas-Lenells Equation with Nonzero Boundary Conditions, Journal of Nonlinear Mathematical Physics, 2021, 28 (1), pp.38-52

24.Zhang, B and Fan, EG, Riemann-Hilbert approach for a Schrodinger-type equation with nonzero boundary conditions, Modern Physics Letters B, 2021,35 (12), 32 pp.

25.Chen, MS and Fan, EG, Riemann-Hilbert approach for discrete Sine-Gordon equation with simple and double poles, Studies in Applied Mathematics, 2021, pp1-28

26.Yang, YL and Fan, EG, Soliton resolution for the short-pulse equation, Journal of Differential Equations, 2021, 280, pp.644-689.

27.Luo, JH and Fan, EG, Dbar-dressing method for the Gerdjikov-Ivanov equation with nonzero boundary conditions, Applied Mathematics Letters, 2021, 120, 10 pp.

28.Yang, YL and Fan, EG, Riemann-Hilbert approach to the modified nonlinear Schrodinger equation with non-vanishing asymptotic boundary conditions, Physica D-Nonlinear Phenomena, 2021, 417, 20 pp.

29.Zhang, ZC and Fan, EG, Inverse scattering transform and multiple high-order pole solutions for the Gerdjikov-Ivanov equation under the zero/nonzero background, Zeitschrift Fur Angewandte Mathematik Und Physik, 2021, 72 (4), 25 pp.

30.Zhou, X and Fan, EG, riemann-hilbert problems and soliton solutions for the complex modified short pulse equation, Reports on Mathematical Physics, 2021,88 (2), pp.145-159

31.Wei, HY; Fan, EG and Guo, HD, Riemann-Hilbert approach and nonlinear dynamics of the coupled higher-order nonlinear Schrodinger equation in the birefringent or two-mode fiber, Nonlinear Dynamics, 2021, 104 (1), pp.649-660

32.Xiao, Y; Xu, J and Fan, EG, The Initial Boundary Value Problems for a Nonlinear Integrable Equation with 3 x 3 Lax Pair on the Finite Interval, Acta Mathematica Scientia, 2021, 41 (5), pp.1733-1748

33.Fan, EG and Yuen, MW, A method for constructing special solutions for multidimensional generalization of euler equations with coriolis force, Chinese Journal of Physics, 2021, 72, pp.136-144

34.Guo, N; Xu, J; Fan, EG, Rogue wave and multi-pole solutions for the focusing Kundu-Eckhaus Equation with nonzero background via Riemann-Hilbert problem method, Nonlinear Dynamics, 2021, 103 (2), pp.1851-1868

35.Luo, JH and Fan, EG, A partial derivative-dressing approach to the Kundu-Eckhaus equation, Journal of Geometry and Physics, 2021, 167, pp1-10

36.Yao, YQ; Huang, YH and Fan, EG, The partial derivative-dressing method and Cauchy matrix for the defocusing matrix NLS system, Applied Mathematics Letters, 2021, 117

37.An, HL; Fan, EG and Yuen, MW, The (N+1)-Dimensional Burgers Equation: A Bilinear Extension, Vortex, Fusion and Rational Solutions, Journal of Nonlinear Mathematical Physics, 2021, 28 (1), pp.27-37

38.Fu, Jixiang; Liu, Haisheng; Extension formulae on almost complex manifolds. Sci. China Math. 64 (2021), no. 1, 45–80.

39.Gu, HY; Gao, WG and Gong, XG, Hyperdynamics simulations with ab initio forces, Journal of Chemical Physics, 2021,154 (21)

40.Gao, Hanjia; Bai, Zhengjian; Gao, Weiguo, Penalized -regression-based bicluster localization, pattern recognition, 117(2021).

41.Chen, Jinchi; Gao, Weiguo and Wei, Ke, Exact matrix completion based on low rank Hankel structure in the Fourier domain, Applied and Computation Harmonic Analysis, 55:149-184, 2021.

42.Tang, Yuan and Gao, Weiguo, Processor-Aware Cache-Oblivious Algorithms, ICPP 2021, 55:1-10, 2021.

43.Zhou, Li; Yan Lihao; Caprio, Mark A.; Gao, Weiguo and Yang, Chao, Solving the k-Sparse Eigenvalue Problem with Reinforcement Learning, CSIAM Transactions on Applied Mathematics, 2(4):697-723, 2021.

44.Lu, Jiachen; Yao, Jinghan; Zhang, Junge; Zhu, Xiatian; Xu, Hang; Gao, Weiguo; Xu, Chunjing; Xiang, Tao and Zhang, Li, SOFT: Softmax-free Transformer with Linear Complexity, NeurIPS 2021.

45.Guo, KY and Zhou, Q, Cyclic Vectors, Outer Functions and Mahler Measure in Two Variables, Integral Equations and Operator Theory, 2021, 93 (5), 14 pp.

46.Hui Dan, Kunyu Guo, The Periodic Dilation Completeness Problem: Cyclic vectors in the Hardy space over the infinite-dimensional polydisk, J. London Math. Soc. 103(2021), 1-34.

47.Hua, BB, Ancient Caloric Functions on Graphs With Unbounded Laplacians, International Mathematics Research Notices, 2021 (4), pp.3056-3077.

48.Han, FW; Hua, BB and Wang, LL, Time analyticity of solutions to the heat equation on graphs, Proceedings of the American Mathematical Society, 2021,149 (6), pp.2279-2290

49.Akama, Y; Hua, BB; Su, YH; Wang, LL, A curvature notion for planar graphs stable under planar duality, Advances in Mathematics, 2021, 385, 44 pp.

50.Ge, HB; Hua, BB and Zhou, Z, circle patterns on surfaces of finite topological type, American Journal of Mathematics, 2021, 143 (5), pp.1397-1430.

51.Ge, HB; Hua, BB and Zhou, Z, Combinatorial Ricci flows for ideal circle patterns, Advances in Mathematics, 2021, 383, 26 pp.

52.Ge, HB; Hua, BB and Jiang, WF, The limit of first eigenfunctions of the p-laplacian on graphs, Pacific Journal of Mathematics, 2021, 312 (1), pp.103-112

53.Hua, BB, Discrete Harmonic Functions on Infinite Penny Graphs, Vietnam Journal of Mathematics, 2021, 49 (2), pp.461-472.

54.Hua, BB; Masamune, J and Wojciechowski, RK, Essential Self-Adjointness and the L-2-Liouville Property, Journal of Fourier Analysis and Applications, 2021, 27 (2), 27 pp.

55.Hua, Bobo; Li, Ruowei The existence of extremal functions for discrete Sobolev inequalities on lattice graphs. J. Differential Equations 305 (2021), 224-241.

56.Han, Xiaosen; Huang, Genggeng; Yang, Yisong, Coexisting vortices and antivortices generated by dually gauged harmonic maps. (English summary), J. Math. Phys. 62 (2021), no. 10, 21 pp.

57.Chen, P; Duong, XT; He, DQ; Lee, S; Yan, LX , Almost everywhere convergence of Bochner-Riesz means for the Hermite operators, Advances in Mathematics, 2021, 392, 42 pp.

58.Ji, QC and Lin, L, Eigenvalue estimates via weighted L-2-technique, Journal of Functional Analysis, 2021, 281 (2), 25 pp.

59.Korobkov, M and Ren, X, Uniqueness of Plane Stationary Navier-Stokes Flow Past an Obstacle, Archive for Rational Mechanics and Analysis, 2021, 240 (3), pp.1487-1519.

60.Korobkov, MV; Pileckas, K and Russo, R, Leray's plane steady state solutions are nontrivial, Advances in Mathematics, 2021, 376, 20 pp.

61.Li, HQ and Sjogren, P, Sharp endpoint estimates for some operators associated with the Laplacian with drift in Euclidean space, Canadian Journal of Mathematics-Journal Canadien De Mathematiques, 2021, 73 (5), pp.1278-1304.

62.Li, T and Zhuang, KL, A cut-off method to realize the exact boundary controllability of nodal profile for Saint-Venant systems on general networks with loops, Jurnal De Mathematiques Pures Et Appliquees, 2021, J 151, pp.1-27.

63.Zu, CX; Li, T and Rao, BP, Sufficiency of Kalman's rank condition for the approximate boundary controllability on a spherical domain, Mathematical Methods in the Applied Sciences, 2021, 44 (17), pp.13509-13525.

64.Li, T and Rao, BP, Approximate boundary synchronization by groups for a coupled system of wave equations with coupled Robin boundary conditions, Esaim-Control Optimisation and Calculus of Variations,2021,27(10), 30 pp.

65.Lu, X and Li, T, Exact Boundary Controllability of Weak Solutions for a Kind of First Order Hyperbolic System - The Constructive Method, Chinese Annals of Mathematics Series B, 2021, 42 (5), pp.643-676.

66.Li, T; Lu, X and Rao, BP, Exact boundary controllability and exact boundary synchronization for a coupled system of wave equations with coupled Robin boundary controls, Esaim-Control Optimisation and Calculus of Variations, 2021,27, 29 pp.

67.Li, T and Rao, BP, Uniform synchronization of an abstract linear second order evolution system, Siam Journal on Control and Optimization, 2021, 59 (4), pp.2740-2755.

68.Y. Li, J. Poulson and L. Ying, Distributed-memory H-matrix Algebra I: Data Distribution and Matrix-vector Multiplication, CSIAM Trans. Appl. Math., 2(3), 431-459 ,2021.

69.Y. Li and H. Yang, Interior Eigensolver for Sparse Hermitian Definite Matrices Based on Zolotarev's Functions, Commun. Math. Sci., 19(4), 1113-1135, 2021.

70.Liang, ZG; Zhao, ZY and Zhou, Q, 1-d Quantum harmonic oscillator with time quasi-periodic quadratic perturbation: Reducibility and growth of Sobolev norms, J. Math. Pures Appl. 146, 2021, pp.158-182. Liang, Zhenguo, Luo, J., Reducibility of 1-d quantum harmonic oscillator equation with unbounded oscillation perturbations, Journal of differential equations, 270(2021), 343-389.

71.Bo-Wei Qin, Lei Zhao, and Wei Lin, A frequency-amplitude coordinator and its optimal energy consumption for biological oscillators, Nature Communications, vol. 12, Oct. 8, Art. no. 5894 .

72.Duxin Chen, Yongzheng Sun, Wenwu Yu, Haitao Zhang, and Wei Lin, Coordinating directional switches in pigeon flocks: The role of nonlinear interactions, Royal Society Open Science, vol. 8, September, Art. no. 210649.

73.Qunxi Zhu, Yao Guo, and Wei Lin, Neural delay differential equations, The Ninth International Conference on Learning Representations (ICLR 2021).

74.Yuanren Jiang and Wei Lin, The role of random structures in tissue formation: From a viewpoint of morphogenesis in stochastic systems, International Journal of Bifurcation and Chaos, vol. 31, No. 11, Art. no. 2150171. 16 pp.

75.Yuankai Ha, Yao Guo, and Wei Lin, Non-Bayesian social learning model with periodically switching structures, CHAOS, vol. 31, April, Art. no. 043137. 11 pp.

76.Yiqun Dong, Jun Tao, Youmin Zhang, Wei Lin, and Jianliang Ai, Deep learning in aircraft design, dynamics, and control: Review and prospects, IEEE Transactions on Aerospace and Electronic Systems, vol. 57, no. 4, August, pp. 2346-2368.

77.Shijie Zhou and Wei Lin, Eliminating synchronization of coupled neurons adaptively by using feedback coupling with heterogeneous delays, CHAOS, vol. 31, no. 2, February, Art. no. 023114. 13 pp.

78.Kai Shi, Lingli Zhang, Juehua Yu, Zilin Chen, Shenying Lai, Xingzhong Zhao, Wei-Guang Li, Qiang Luo, Wei Lin, Jianfeng Feng, Peer Bork, Xing-Ming Zhao, and Fei Li, A 12-genus bacterial signature identifies a group of severe autism children with differential sensory behavior and brain structures, Clinical and Translational Medicine, vol. 11, no. 2, February, Art. no. e314.

79.Kunquan Lan and Wei Lin, Steady-state solutions of one dimensional competition models in an unstirred chemostat via the fixed point index theory, Proceedings of the Royal Society of Edinburgh Section A: Mathematics, vol. 151, no. 1, February, pp. 240 – 264.

80.Jiawen Hou, Jie Hong, Boyun Ji, Bowen Dong, Yun Chen, Michael P. Ward, Wei Tu, Zhen Jin, Jian Hu, Qing Su, Wenge Wang, Zheng Zhao, Shuang Xiao, Jiaqi Huang, Wei Lin, and Zhijie Zhang, Changed transmission epidemiology of COVID-19 at early stage: A nationwide population-based piecewise mathematical modelling study, Travel Medicine and Infectious Diseases, vol. 39, Art. no. 101918.

81.Jiachen Ye, Thomas Peron, Wei Lin, Jürgen Kurths, Peng Ji, Performance measures after perturbations in the presence of inertia, Communications in Nonlinear Science and Numerical Simulation, vol. 97, June, Art. no. 105727. 10 pp.

82.Qiyang Ge, Zixin Hu, Shudi Li, Wei Lin, Li Jin, and Momiao Xiong, A novel intervention recurrent autoencoder for real time forecasting and non-pharmaceutical intervention selection to curb the spread of Covid-19 in the world, Statistics and Its Interface, vol. 14, no. 1, pp. 37-47.

83.Liu, XG; Liu, ZX and Wang, K, Interior estimates of harmonic heat flow, International Journal of Mathematics, 2021, 32 (07), 14 pp.

84.Han, YJ; Lu, WL and Chen, TP, Event-triggered scheduling for pinning networks of coupled dynamical systems under stochastically fast switching, IET Control Theory and Applications, 2021, 15 (12), pp.1673-1685.

85.Liu, ZF; Zheng, R; Lu, WL; Xu, SH, Using Event-Based Method to Estimate Cybersecurity Equilibrium, IEEE-CAA Journal of Automatica Sinica, 2021, 8 (2), pp.455-467.

86.Lu, Shuai; Niu, Pingping; Werner, Frank, On the Asymptotical Regularization for Linear Inverse Problems in Presence of White Noise, SIAM-ASA journal on uncertainty quantification, 9(2021), no.1, 1-28.

87.Lu, WL and Chen, TP, QUAD-Condition, Synchronization, Consensus of Multiagents, and Anti-Synchronization of Complex Networks, EEE Transactions on Cybernetics, 2021, 51 (6), pp.3384-3388.

88.Han, YJ; Lu, WL and Xu, SH, Preventive and Reactive Cyber Defense Dynamics with Ergodic Time-Dependent Parameters is Globally Attractive, IEEE Transactions on Network Science and Engineering, 2021,8 (3), pp.2517-2532.

89.Chen, TP; Lu, WL and Liu, XW, Finite time convergence of pinning synchronization with a single nonlinear controller, Neural Networks, 2021, 143, pp.246-249.

90.Lou, HW and Yong, JM, Optimization of the principal eigenvalue for elliptic operators, Calculus of Variations and Partial Differential Equations, 2021, 60 (4), 42 pp.

91.Ma, JM and Zheng, FT, Orientable hyperbolic 4-manifolds over the 120-Cell, Mathematics of Computation, 2021, 90 (331), pp.2463-2501.

92.Ma, JM and Zheng, FT, Algebraic fibrations of certain hyperbolic 4-manifolds, Topology and Its Applications, 2021, 290, 13 pp.

93.Li, Xiaotao; Fan, Fangfang; Chen, Xuejing; Li, Juan; Ning, Li; Lin, Kangguang; Chen, Zan; Qin, Zhenyun; Yeung, Albert S.; Li, Xiaojian; Wang, Liping; So, Kwok-Fai, Computer Vision for Brain Disorders Based Primarily on Ocular Responses, Frontiers in neurology, 12(2021).

94.Qiu, WY and Yang, F, Quasisymmetric Uniformization and Hausdorff Dimensions of Cantor Circle Julia Sets, Transactions of The American Mathematical Society, 2021, 374 (7), pp.5191-5223.

95.Ren, RF, Primitive prime divisors in the critical orbits of one-parameter families of rational polynomials, Mathematical Proceedings of the Cambridge Philosophical Society, 2021,171 (3), pp.569-584.

96.Liu, FH; Shi, L; (...); Suykens, JAK, Analysis of regularized least-squares in reproducing kernel Krein spaces, Machine Learning, 2021, 110 (6), pp.1145-1173.

97.Liu, FH; Shi, L; (...); Suykens, JAK, Generalization Properties of hyper-RKHS and its Applications, Journal of Machine Learning Research, 2021, 22, 38 pp.

98.Sha, NY; Shi, L and Yan, M, Fast algorithms for robust principal component analysis with an upper bound on the rank, Inverse Problems and Imaging, 2021, 15 (1), pp.109-128.

99.Gao, ZQ; Chen, ZH; Su, YF; Zeng, X, Bayesian Inference on Introduced General Region: An Efficient Parametric Yield Estimation Method for Integrated Circuits, 2021 26th Asia and South Pacific Design Automation Conference (ASP-DAC), 2021, pp.892-897.

100.Chen, A and Tian, XT, Distributional chaos in multifractal analysis, recurrence and transitivity, Ergodic Theory and Dynamical Systems, 2021, 41 (2), pp.349-378.

101.Forys-Krawiec, M; Kupka, J; (...); Tian, XT, On entropy of phi-irregular and phi-level sets in maps with the shadowing property, Discrete and Continuous Dynamical Systems, 2021, 41 (3), pp.1271-1296.

102.Li, YZ and Tang, SJ, Approximation of BSDEs with super-linearly growing generators by Euler's polygonal line method: A simple proof of the existence, Systems & Control Letters, 2021, 153, 10 pp.

103.Li, YZ and Tang, SJ, BMO martingale method for backward stochastic differential equations driven by general cadlag local martingales, Communications in Information and Systems, 2021,21(4), pp.561-589.

104.Li, YZ and Tang, SJ, Approximation of backward stochastic partial differential equations by a splitting-up method, Journal of Mathematical Analysis and Applications, 2021, 493 (1), 37 pp.

105.Li, YZ; Shu, CW and Tang, SJ, A local discontinuous Galerkin method for nonlinear parabolic SPDEs, Esaim-Mathematical Modelling and Numerical Analysis-Modelisation Mathematique Et Analyse Numerique, 2021, 55, pp. S187-S223.

106.Wang, ZX and Tang, SJ, Gradient Convergence of Deep Learning-Based Numerical Methods for BSDEs, Chinese Annals of Mathematics Series B, 2021, 42 (2), pp.199-216.

107.Cao, TB; Dai, HX and Wang, J, Nevanlinna Theory for Jackson Difference Operators and Entire Solutions of q-Difference Equations, Analysis Mathematica, 2021, 47 (3), pp.529-557.

108.Wang, J; Yao, X and Zhang, CC, Julia limiting directions of entire solutions of complex differential equations, Acta Mathematica Scientia, 2021, 41 (4), pp.1275-1286.

109.Heittokangas, J; Wang, J; (...); Yu, H, Meromorphic functions of finite phi-order and linear q-difference equations, Journal of Difference Equations and Applications, 2021, 27 (9), pp.1280-1309.

110.Heittokangas, J.; Latreuch, Z.; Wang, J.; Zemirni, M. A. On meromorphic solutions of non-linear differential equations of Tumura-Clunie type. Math. Nachr. 294(2021),no. 4, 748–773.

111.Qiu, YQ and Wang, K, Rigidity of determinantal point processes on the unit disc with sub-bergman kernels, Israel Journal of Mathematics, 245 (2022), no. 1, 389-408.

112.E. Falbel, A. Guilloux, Q. Wang: Geometric structures and configurations of flags in orbits of real forms; São Paulo Journal of Mathematical Sciences (2021) 15:175–213.

113.Cui, Y and Wang, ZQ, On the asymptotic stability of wave equations coupled by velocities of anti-symmetric type, Chinese Annals of Mathematics Series B, 2021, 42 (6), pp.813-832.

114.Zhang, LP; Wei, YM and Chu, EKW, Neural network for computing GSVD and RSVD, Neurocomputing, 2021, 444, pp.59-66.

115.Che, ML; Wei, YM and Yan, H, Randomized algorithms for the low multilinear rank approximations of tensors, Journal of Computational and Applied Mathematics, 2021, 390, 19 pp.

116.Wang, XZ; Mo, CX; (...); Wei, YM, Accelerated dynamical approaches for finding the unique positive solution of KS-tensor equations, Numerical Algorithms, 2021, 88 (4), pp.1787-1810.

117.Mo, CX and Wei, YM, On Nonnegative Solution of Multi-Linear System with Strong M-z –Tensors, Numerical Mathematics-Theory Methods and Applications, 2021, 14 (1), pp.176-193.

118.Miao, Y; Qi, LQ and Wei, YM, T-Jordan Canonical Form and T-Drazin Inverse Based on the T-Product, Communications on Applied Mathematics and Computation, 2021, 3 (2), pp.201-220.

119.Cvetkovic-Ilic, D; Wang, QW and Wei, YM, Different completions of A plus CX, Journal of Spectral Theory, 2021, 11 (3), pp.905-914.

120.Che, ML; Wei, YM and Yan, H, An Efficient Randomized Algorithm for Computing the Approximate Tucker Decomposition, Journal of Scientific Computing, 2021, 88 (2), 29 pp.

121.Chen, X; Wu, B; Zhu, RC; Zhu, XC, Stochastic heat equations for infinite strings with values in a manifold, Transactions of the American Mathematical Society, 2021, 374 (1), pp.407-452.

122.He, JN and Wu, H, Global well-posedness of a Navier-Stokes-Cahn-Hilliard system with chemotaxis and singular potential in 2D, Journal of Differential Equations, 2021, 297, pp.47-80.

123.Wang, XM and Wu, H, Global weak solutions to the navier-stokes-darcy-boussinesq system for thermal convection in coupled free and porous media flows, Advances in Differential Equations, 2021, 26 (1-2), pp.1-44.

124.Fukao, T and Wu, H, Separation property and convergence to equilibrium for the equation and dynamic boundary condition of Cahn-Hilliard type with singular potential, Asymptotic Analysis, 2021 ,124 (3-4), pp.303-341.

125.Cavaterra, C; Rocca, E and Wu, H, Long-Time Dynamics and Optimal Control of a Diffuse Interface Model for Tumor Growth, Applied Mathematics and Optimization, 2021, 83 (2), pp.739-787.

126.Sprekels, J and Wu, H, Optimal Distributed Control of a Cahn-Hilliard-Darcy System with Mass Sources, Applied Mathematics and Optimization, 2021, 83 (1), pp.489-530.

127.Wu, QS and Zhu, RP, Nakayama automorphisms and modular derivations in filtered deformations, Journal of Algebra, 2021, 572, pp.381-421.

128.Luo, J; Wang, XT and Wu, QS, Poisson Dixmier-Moeglin equivalence from a topological point of view, Israel Journal of Mathematics, 2021, 243 (1), pp.103-139.

129.Bo Gong, Jiguang Sun, and Xinming Wu, Finite element approximation of the modified maxwell's stekloff eigenvalues, Siam J. Numer. Anal, Vol. 59, No. 5, pp. 2430—2448.

130.Sun, XP; Wu, ZM and Zhou, X, On probabilistic convergence rates of stochastic bernstein polynomials, Mathematics of Computation, 2021, 90 (328), pp.813-830.

131.Wu, ZM and Zhang, R, Probabilistic solutions to DAEs learning from physical data, Analysis and Applications, 2021, 19 (06), pp.1093-1111.

132.Jin, KP; Liang, J and Xiao, TJ, Asymptotic Stability of Energy for a Weak Viscoelastic Plate Equation with Complementary Frictional Damping, Applied Mathematics and Optimization, 2021, 84 (3), pp.3025-3044.

133.Luo, JR and Xiao, TJ, Optimal energy decay rates for abstract second order evolution equations with non-autonomous damping, Esaim-Control Optimisation and Calculus of Variations, 2021, 27, 24 pp.

134.Li, C; Liang, J and Xiao, TJ, Asymptotic behaviours of solutions for wave equations with damped Wentzell boundary conditions but no interior damping, Journal of Differential Equations, 2021, 271, pp.76-106.

135.Jin, KP; Liang, J and Xiao, TJ, Uniform polynomial stability of second order integro-differential equations in hilbert spaces with positive definite kernels, Discrete and Continuous Dynamical Systems-Series S, 2021, 14 (9), pp.3141-3166.

136.Li, C; Liang, J and Xiao, TJ, Long-term dynamical behavior of the wave model with locally distributed frictional and viscoelastic damping, Communications in Nonlinear Science and Numerical Simulation, 2021, 92, 22 pp.

137.Luo, JR and Xiao, TJ, Decay rates for semilinear wave equations with vanishing damping and Neumann boundary conditions, Mathematical Methods in the Applied Sciences, 2021, 44, pp. 303-314.

138.He, XK; Wu, XN and Xie, NQ, From bending of light to positive mass: A non-PDE perspective, Journal of Mathematical Physics, 2021, 62 (6), 7 pp.

139.Xin, YL, Singularities of mean curvature flow, Science China-Mathematics, 2021, 64 (7), pp.1349-1356.

140.Xin, YL, Minimal Submanifolds of Higher Codimension, Vietnam Journal of Mathematics, 2021, 49 (2), pp.473-480.

141.Xu, Yashan, Characterization by detectability inequality for periodic stabilization of linear time-periodic evolution systems, Systems & control letters, 149(2021). 7 pp.

142.Huang, R and Xue, JG, Accurate singular values of a class of parameterized negative matrices, Advances in Computational Mathematics, 2021, 47 (5), 30 pp.

143.Liu, CL; Wang, WG; Xue, JG; Li, RC, Accurate numerical solution for structured M-matrix algebraic Riccati equations, Journal of Computational and Applied Mathematics, 2021, 396, 16 pp.

144.Jin, L and Yan, J, On the dynamics of contact Hamiltonian systems: I. Monotone systems, Nonlinearity, 2021, 34 (5), pp.3314-3336.

145.Wang, YN; Yan, J and Zhang, JL, Convergence of viscosity solutions of generalized contact hamilton-jacobi equations, Archive for Rational Mechanics and Analysis, 2021, 241 (2), pp.885-902.

146.Wang, KZ; Wang, L and Yan, J, Weak KAM solutions of Hamilton-Jacobi equations with decreasing dependence on unknown functions, Journal of Differential Equations, 2021, 286, pp.411-432.

147.Jing,LL and Yang, L: A Bernstein-type theorem for minimal graphs of higher codimension via singular values. Vietnam Journal of Mathematics, 2021, 49, 481-492.

148.Li, Xiaodan; Ying, Jiangang; Markov chain approximations for one dimensional diffusions. Osaka J. Math. 58(2021),no. 3, 551–561. 60.

149.Shi, J and Yuan, XP, Anderson localization for a generalized Maryland model with potentials given by skew shifts, Journal of Spectral Theory, 2021, 11 (3), pp.1297-1311.

150.Cong, HZ and Yuan, XP, The existence of full dimensional invariant tori for 1-dimensional nonlinear wave equation, Annales De L Institut Henri Poincare-Analyse Non Lineaire, 2021, 38 (3), pp.759-786.

151.Wu, Y and Yuan, XP, A KAM Theorem for the Hamiltonian with Finite Zero Normal Frequencies and Its Applications (In Memory of Professor Walter Craig, Journal of Dynamics and Differential Equations, 2021, 33 (3), pp.1427-1474.

152.Yuan, Xiaoping, KAM theorem with normal frequencies of finite limit points for some shallow water equations. Comm. Pure Appl. Math. 74 (2021), no. 6, 1193-1281.

153.Jian, WW; Shi, J and Yuan, XP, Anderson localization for long-range operators with singular potentials, Journal of Mathematical Physics, 2021, 62 (2), 16 pp.

154.Wu, Y and Yuan, XP, On the Kolmogorov theorem for some infinite-dimensional Hamiltonian systems of short range, Nonlinear Analysis-Theory Methods & Applications, 2021, 202, 34 pp.

155.Wu, Yuan; Yuan, Xiaoping, A KAM theorem for the Hamiltonian with finite zero normal frequencies and its applications. J. Dynam. Differential Equations 33 (2021), no. 3, 1427–1474.

156.Yu, T; Zhang, GH and Zhang, RF, Discrete spectrum for amenable group actions, Discrete and Continuous Dynamical Systems, 2021, 41 (12), pp.5871-5886.

157.Yang, X and Zhang, J, Systems of reflected stochastic PDEs in a convex domain: Analytical approach, Journal of Differential Equations, 2021, 284, pp.350-373.

158.Denis, L; Matoussi, A and Zhang, J, Quasilinear Stochastic PDEs with two obstacles: Probabilistic approach, Stochastic Processes and Their Applications, 2021,133, pp.1-40.

159.Dai, Dan; Xu, Shuai-Xia; Zhang, Lun, Asymptotics of Fredholm Determinant Associated with the Pearcey Kernel, Communications in mathematical physics, 382(2021), no.3, 1769-1809.

160.Wang, Bao-Wei; Zhang, Guo-Hua, A dynamical dimension transference principle for dynamical diophantine approximation. Math. Z. 298 (2021), no. 1-2, 161-191.

161.Pu, JY and Zhang, Q, Robust consumption portfolio optimization with stochastic differential utility, Automatica, 2021, 133, 8 pp.

162.Pu, JY and Zhang, Q, Constrained Stochastic LQ Optimal Control Problem with Random Coefficients on Infinite Time Horizon, Applied Mathematics and Optimization, 2021, 83 (2), pp.1005-1023

163.Lin, Lin; Xu, Fang; Zhang, Qi, The link between stochastic differential equations with non-Markovian coefficients and backward stochastic partial differential equations. Acta Mathematica Sinica, English Series, 37 (2021), 447-457.

164.Gao, HJ; Bai, ZJ; (...); Zhang, SQ, Penalized -regression-based bicluster localization, Pattern Recognition, 2021,117.

165.Wei, ZY and Zhang, SQ, CALLR: a semi-supervised cell-type annotation method for single-cell RNA sequencing data, BIOINFORMATICS, 2021, 37, pp.I51-I58.

166.Qi, YJ; Jia, JA; Zhang, SQ; Ma, XL,Lymphocyte-monocyte-neutrophil index: a predictor of severity of coronavirus disease 2019 patients produced by sparse principal component analysis, Virology Journal, 2021, 18 (1).

167.Chen, Tuowei; Zhang, Yongqian; Free boundary problem for one-dimensional compressible Navier–Stokes equations with temperature-dependent viscosity and heat conductivity. Math. Methods Appl. Sci 44 (2021), no. 17, 13273-13286.

168.Kuang, Jie; Zhang, Yongqian; Low Mach number limit for quasi-one-dimensional isentropic Euler flow (in Chinese). SCIENTIA SINICA Mathematica 51(2021), no. 6, 937-956.

169.Chen, Tuowei; Zhang, Yongqian; A Strong solution of Navier-Stokes equations with a rotation effect for isentropic compressible fluids. Acta Math. Sci. Ser. B (Engl. Ed.) 41(2021), no. 5, 1579-1605.

170.Chen, Tuowei; Zhang, Yongqian. Initial boundary value problems for two-dimensional isentropic compressible Navier-Stokes equations with rotating effect terms. J. Math. Anal. Appl. 504 (2021), no. 2, 125430.

171.Chen, Gui-Qiang G.; Kuang, Jie; Zhang, Yongqian. Stability of conical shocks in the three-dimensional steady supersonic isothermal flows past Lipschitz perturbed cones. SIAM J. Math. Anal. 53 (2021), no. 3, 2811--2862.

172.Mei, Ming; Wu, Xiaochun; Zhang, Yongqian. Stability of steady-state for 3-D hydrodynamic model of unipolar semiconductor with Ohmic contact boundary in hollow ball. J. Differential Equations 277(2021), 57--113.

173.Xu, XN and Zhang, YX, Motility and energetics of randomly flashing ratchets, Journal of Statistical Mechanics-Theory and Experiment, 2021 (3), 21 pp.

174.Liu, MX; Fu, XJ and Zhao, DH, Dynamical analysis of an SIS epidemic model with migration and residence time, International Journal of Biomathematics, 2021, 14 (04), 18 pp.

175.Liu, MX; Fu, XJ; Zhao, DH, Global dynamics of an sis model on metapopulation networks with demographics, Complexity, 2021.

176.Li, W; Zhao, LZ; Zhao, DH; Sun, YZ, Realizing generalized outer synchronization of complex dynamical networks with stochastically adaptive coupling, Mathematics and Computers in Simulation, 2021, 187, pp.379-390.

177.Zou, X; Jiang, CL; Zhao, DH; Chen, L, A functional assembly framework based on implementable neurobionic material, Clinical and Translational Medicine, 2021, 11 (1)

178.Zha, DB; Liu, JL and Zhou, Y, Global nonlinear stability of one kind of large solutions to evolutionary Faddeev model, Calculus of Variations and Partial Differential Equations, 2021, 60 (1), 31 pp.

179.Lai, NA and Zhou, Y, Global existence for semilinear wave equations with scaling invariant damping in 3-D, Nonlinear Analysis-Theory Methods & Applications, 2021, 210, 12 pp.

180.Li, YY and Zhou, ZX, Dromion solutions of PT-symmetric (x, y)-nonlocal Davey-Stewartson I equation, Communications in Nonlinear Science and Numerical Simulation, 2021, 103, 19 pp.

181.Zhou ZX, Darboux transformation for integrable systems with symmetries, in Nonlinear Systems and Their Remarkable Mathematical Structures 3 (Eds. Euler R, Zhang DJ), CRC Press (2021) 201-226.

182.Zhou, Jingheng; Zhu, Shenglin, The applications of probability groups on Hopf algebras.,Comm. Algebra 49 (2021), no. 1, 14–32.

183.Cai, Y and Wang, F, Global well-posedness of incompressible elastodynamics in three dimensional thin domain, SIAM J. Math. Anal. 53 (2021), no. 6, 6654--6696.

184.Y. Li, X. Cheng and J. Lu, Butterfly-Net: Optimal function representation based on convolutional neural networks, Commun. Comput. Phys., 28, 1838-1885 (2021).

185.C. Zhu, Z. Zhang, L. Zhong, C. Hsu, X. Xu, Y. Li, S. Zhao, S. Chen, J. Yu, S. Chen, M. Wu, P. Gao, S. Li, H. Chen, K. Liu and L. Zhang, Product-specific active site motifs of Cu for electrochemical CO2 reduction, Chem 7, 1-15 (2021).

186.Ana Khukhro, Kang Li, Federico Vigolo, Jiawen Zhang. On the structure of asymptotic expanders. Advances in Mathematics, 393:108073, 2021.

187.Graham Niblo, Nick Wright, and Jiawen Zhang. Coarse median algebras: The intrinsic geometry of coarse median spaces and their intervals. Selecta Mathematica, 27(2):1-50, 2021.

188.G. Bao, X. Xu, J. Zhai, Inverse spectral problem for a damped wave operator, SIAM J. Appl. Math., 81 (2021) 1799-1820.

189.P. Li, J. Zhai, Y. Zhao, Lipschitz stability for an inverse source scattering problem at a fixed frequency, Inverse Problems, 37 (2021), no. 2, Paper No. 025003, 17 pp.

190.G. Uhlmann, J. Zhai Inverse problems for nonlinear hyperbolic equations, Discrete Contin. Dyn. Syst., 41 (2021) 455-469.

191.G. Uhlmann, J. Zhai, On an inverse boundary value problem for a nonlinear elastic wave equation, J. Math. Pures Appl., 153 (2021) 114-136.

192.M. V. de Hoop, T. Saksala, G. Uhlmann, J. Zhai, Generic uniqueness and stability for the mixed ray transform, Trans. Amer. Math. Soc., 374 (2021), 6085-6144.