FStability of 3D perturbations near a special 2D solution to the rotating Boussinesq equations. Stud Appl Math. 2022;1-32.
FStability and large-time behavior of the 3D Boussinesq equations with mixed partial kinematic viscosity and thermal diffusivity near one equilibrium. Math. Methods Appl. Sci. (2022):1-24.
FStability of the 2D anisotropic Boussinesq equations with mixed partial dissipation. J Math. Phys., 63(10)(2022).
FStability of hydrostatic equilibrium to the 2D fractional Boussinesq equations. Discrete and Continuous Dynamical Systems-B, 2021.
FStability of hydrostatic equilibrium for the 2D magnetic Bénard fluid equations with mixed partial dissipation, magnetic diffusion and thermal diffusivity. Zeitschrift für angewandte Mathematik und Physik, 72:1, 2021.
FGlobal regularity problem of two-dimensional magnetic Bénardfluid equations. Mathematical Methods in Applied Sciences, 2021.
FGlobal regularity of 2D magnetic Bénard fluid equations withzero viscosity, almost Laplacian magnetic diffusion and thermal diffusivity. Applicable Analysis, 2021.
FAsymptotic stability and decay rates for a system of 2D magnetic Bénard fluid equations with mixed partial dissipation, magnetic diffusion and thermal diffusivity. Applied Mathematics and Computation, 399(125998), 2021.
FConditional regularity of weak solutions to the 3D magnetic Bénard fluid system. Journal of Partial Differential Equations, 34(2)(143-168), 2021.
FGlobal regularity of 2D magnetic Benard fluid equations with zero kinematic viscosity, almost Laplacian magnetic diffusion and thermal diffusivity. Appl. Anal., 101(8)(2020): 3082-3102.
FGlobal regularity results for the 2.5D magnetic Bénard system with mixed partial viscosity. Applicable Analysis, 98(6)(1143-1164), 2019.
FBlow-up criteria for 2.5D magnetic Bénard fluid system with partial viscosity. Applied Mathematics and Computation, 346(816-831), 2019.
FBlow-up criteria for the 3D Bénard system in Besov spaces, Journal of Inequalities and Applications, 63(1-11), 2019.
FBlow-up criteria and regularity criterion for the three-dimensional magnetic Bénard system in the multiplier space. Results in Mathematics, 73(3)(103-125), 2018.
FGlobal existence of smooth solutions for three-dimensional magnetic Bénard system with mixed partial dissipation, magnetic diffusion and thermal diffusivity. Journal of Mathematical Analysis and Applications, 461(2)(1639-1652), 2018.
FGlobal existence of three-dimensional incompressible magneto-micropolar system with mixed partial dissipation, magnetic diffusion and angular viscosity. Computers and Mathematics with Applications, 75(1)(170-186), 2018.
FGlobal regularity for the 2D magnetic Bénard fluid system with mixed partial viscosity. Computers and Mathematics with Applications, 76(9)(2148-2166), 2018.
FOn two-dimensional incompressible magneto-micropolar system with mixed partial viscosity. Nonlinear Analysis: Real World Applications, 40(95-129), 2018.
FBlow-up criteria for 2.5D magnetic Bénard fluid system with partial viscosity. Applicable Analysis, 2018.
FGlobal existence of weak solution and regularity criteria for the 2D Bénard system with partial dissipation, Boundary Value Problems, 40(95-129), 2018.
FGlobal existence of smooth solutions for three-dimensional magnetic Bénard system with mixed partial dissipation, magnetic diffusion and thermal diffusivity, Boundary Value Problems, 1-23,2018.
FData Fusion and Trajectory Prediction of Multi-sensor.Proceeding of Communication Technology (ICT) and Smart Grid Workshop of 12th Annual Meeting of CAST, 2010, 213-218.
FInfluence and Prediction of Meteorological Factors on Gastric Ulcer Incidence Rate in Plateau Section.Asia-Pacific Youth Conference on Communication (APYCC2010),2010,205-208.
FGrey Series GM (1, 1) Model in Prediction of Cerebral Infarction Incidence Rate.Asia-Pacific Youth Conference on Communication (APYCC2010) , 2010, 831-834.
FPneumonia Incidence Rate Predictive Model of Nonlinear Time Series Based on Dynamic Learning Rate BP Neural Network. ICFIE2010, 2010, 739-750.
FIncidence Rate of Hypertension Forecasting Based on Generalized Regression Neural Network.2010 the 3rd International Symposium on Computational Intelligence and Design, 2010, 10, 29-31, volume 1, 11-14.
FStudy on Cholecystitis Incidence Rate Forecasting with BP Neural Network Method. 2010 3rd International Conference on BioMedical Engineering and Informatics, 2010, 10, 16-18, volume 7, 2971-2974.
FApplication Study on BP Neural Network in the Incidence Rate of Pneumonia Emphysema.2010 International Conference on Artificial Intelligence and Education,2010.
FImproved Nephritis Incidence Rate Forecasting Method Based on BP Network. Proceeding of Communication Technology (ICT) and Smart Grid Workshop of 12th Annual Meeting of CAST, 2010, 455-458.
FBP Artificial Neural Network Based on Predictive Model for Pulmonary Heart Disease.The Invitation of 2010 International Institute of Statistics & Management Engineering Symposium, 2010.
FForecast of Cerebral Infraction Incidence Rate Based on BP Neural Network and ARIMA Combined Model.The 2010 International Symposium on Intelligence Information Processing and Trusted Computing (TPTC 2010), 2010, volume 1,216-219.
FCoronary Artery Heart Disease Incidence Rate Forecasting Based on Nonparametric GARCH. Proceeding of Communication Technology (ICT) and Smart Grid Workshop of 12th Annual Meeting of CAST, 2010, 280-285.
FGrey-Markov Model for Forecasting Incidence Rate. The International Conference on Management Engineering and Business Management, 2012, 185-189.
FTwo new calculating methods for the irregular Herimit interpolation polynomial. Computation Science and Electronic Engineering, 2013, 564-565.
FCalculating Methods for the Irregular Hermit Interpolation Polynomial . Systems Engineering and Modeling, 2013, 18-22.
FApplying Rough Set Theory to Establish Artificial Neural Networks Model for Short Term Incidence Rate Forecasting. Computer Science and Electronics Engineering, 2013,1895-1898.
FA Class Basic Formulas of k Step Linear Multistep Explicit Methods of k Order. Mathematica Numerica Sinica, 2013, 35(1):31-39.
FA Class of k step linear multistep implicit methods of k+1 order. Mathematica Numerica Sinica, ,2013,35(4):393-400.
FA Numerical Method for the Time Fractional Order Dispersion Equation. Mathematics in Practice and Theory, 2013, 43(10):248-253.
FAn implicit difference approximation for variable coefficients space fractional convection-diffusion equation.Journal of North University of China (Natural Science Edition), 2014, 35(1):11-14.
FAnalytical solutions of fractional-in-space diffusion equation with Riesz fractional derivative in n dimensions. Journal of Hefei University of Technology, 2014, 37(4):506-509.
FWeighted finite difference methods for two-sided space fractional anomalous diffusion equation. Journal of North University of China,2014,35(5):525-529.
FNumerical solution to the two-dimensional space fractional order telegraph equation with variable coefficients. Journal of Liaoning Technical University, 2014, 33(3):429-432.
FComparative study of number algorithms for time-space fractional convection-diffusion equation with variable coefficients. Journal of Hefei University of Technology, 2014,37(6):757-760.
FAn implicit difference approximation for fractional cable equation in high-dimensional case. Journal of Liaoning Technical University (Natural Science), 2014, 33(4):544-547.
FOn a new implicit difference method for the Coimbra variable order time fractional diffusion-wave equation. Journal of Southwest China Normal University(Natural Science Edition) ,2015,40(3):25-31.
FFundamental solutions of the non-homogeneous time fractional telegraph equation in high dimensions. Journal of Science Normal University (Natural Science), 2015, 38(1):77-83.
FModified alternating direction implicit method for solving space fractional telegraph equation with variable coefficients. Journal of Sichuan University, 2015, 52(3):467-476.
FAn alternating segment explicit-implicit difference method for variable coefficient diffusion equation. Journal of Hefei University of Technology, 2015, 38(8):1147-1152.
FA weighted explicit finite difference method for two-sided space fractional advection diffusion equation. Journal of Science Normal University (Natural Science), 2016, 39(1):76-82.
FFully Implicit Finite Difference Scheme for the Nonlinear Variable-Order Space-Time Fractional Advection-Diffusion Equation, Journal of Sichuan Normal University (Natural Science),2018,9,41(5):627-634.
FResearch on Forecasting model of Incidence Rate of Myocardosis with Instable State Based on BP Neural Network. Chinese Journal of Gerontology, 2011, 12, 31(24):4877-4878.
FApplication of time series analysis in the prediction of cholecystitis incidence. Chinese J Exp Surg., 2010, 6, 27(6):779.
FCerebral Infraction Incidence Rate Forecasting Based on Factor RBF Neural Network Prediction Model. Statistics and Decision, 2010, 10,200-201.
FApplication of time series model in the prediction of the month incidence rate of gall-stone. Chinese Journal of Gerontology, 2010, 9, 30(17):2401-2405.
FTime series analysis method applied in prediction of cholecystitis incidence rate. Basic & Clinical Medicine, 2011, 1, 31(1):9-12.
FPulmonary emphysema incidence rate forecasting model based on transfer function models for period-decoupled time series. Pharmaceutical Bitotechnology, 2010, 10, 17(5):408-411.
FApplication of time series analysis in the prediction of hypertension incidence. Chinese Journal of Gerontology,2010,7, 30(13):1777-1780.
FApplication of the ARMA model in forecast of the incidence rate of cholelithiasis. Bull Acad. Mil. Med. Sci., 2010, 10, 34(5):1-4.
FRespiratory tract infection incidence rate research based on ARCH model in Haixizhou region. Chinese Journal of Health Statistics, 2011, 6, 28(3):312-315.
FResearch of Bronchitis Disease Situation in Haixizhou Region Based on Asymmetry ARCH Model.Science & Technology Review,2009,12,27(24):51-55.
FApplication of resilient back propagation artificial neural network model on prediction of incidence rate of coronary heart disease. Chinese Journal of Gerontology, 2013, 1(13):8-10.
FApplication of ARIMA model in estimation of pulmonary heart disease in Qinghai Haixizhou region. Journal of Clinical Rehabilitative Tissue Engineering Research, 2010, 14(33):6243-6246.
FResearch of Hypertension Month Incidence Rate Forecasting in Haixizhou Region Based on ARIMAX Model. Chinese Journal of Gerontology, 2011, 31(22):4428-4431.
FA Class Basic Formulas of k Step Linear Multistep Explicit Methods of k Order. Mathematica Numerica Sinica, 2013, 35(1):31-39.
FA class of k step linear multistep implicit methods of k+1 order. Mathematica Numerica Sinica,2013,35(4):393-400.
FA class order reduction Gear’s methods of A(a)-stability. Numerical Mathematics,2017,39(2),129-144.
FGastric Ulcer Incidence Rate Forecasting Based on Factor BP Neural Network Prediction Model. Journal of Beijing Union University (Natural Science), 2012, 26(3):73-76.
FForecasting Morbidity of Cerebral Infraction via Combination Rough Sets with RBF Neural Network. Journal of Northwest University for Nationalities (Natural Science), 2012, 33(3):17-21.
FPrediction of Hypertension Incidence Rate Based on PCA-ARIMA Model. Journal of Hebei North University, 2013, 29(2):26-29.
FEarnings analysis and research for auction sites. Journal of Beijing Union University, 2013, 27(4):77-82.
FPrediction of time series based on Huang Transform and ARIMA model. Journal of Panzhihua University, 2013, 30(3):106-108.
FAn Implicit Difference Approximation for the Caputo Fractional-Order Reaction-Dispersion Equation. Journal of Guizhou Normal University, 2013, 1(31):58-61.
FImplicit Difference Approximation for the Time Fractional Convection-Dispersion Equation. Journal of Northwest University for Nationalities (Natural Science), 2013, 34(1):7-12.
FFinite Difference Methods for Space Fractional Convection-diffusion Equation with Variable Coefficients. Journal of Shenyang University (Natural Science), 2013, 25(4):341-344.
FAn Explicit Difference Approximation for Space Fractional Edwards-Wilkinson Equation. Journal of Shenyang University (Natural Science), 2013, 25(3):250-252.
FNumerical Analysis of Variable Order Time Fractional Unsteady Convection Diffusion Equation. Journal of Eastern Liaoning University (Natural Science), 2013, 20(3):220-223.
FNumerical analysis for a class of variable order time fractional non-constant singularly perturbed convection diffusion equation with source term. Journal of Shenyang University (Natural Science), 2013, 25(5):424-427.
FImplicit difference approximation for the time fractional order diffusion equation. Journal of Guizhou Normal University (Natural Science), 2014, 32(2):79-82.
FA finite difference scheme and a convergence analysis of a kind of anomalous diffusion equation with Neumann conditions. Journal of Wuyi University, 2014, 28(1):1-4.
FImprovement and Application of Time Series Prediction Model. Journal of Tangshan College, 2013, 26(3):8-11.
FA numerical method for fractional reaction-dispersion equation with variable coefficients. Journal of Shenyang University, 2014, 26(1):76-80.
FA difference scheme and a theorem analysis for a kind of fractional convection-dispersion equation. Journal of Wuyi University, 2014, 28(2):9-14.
FNew kind of time series combined prediction model and its application. Journal of Daqing Normal University, 2013,33(6):59-64.
FA prediction method for time series based on Hilbert-Huang transform and ARMA model.Journal of Jianghan Un、iversity, 2014,42(1):76-79.
FA problem with initial-boundary value of diffusion equation of time-fractional order. Journal of Tangshan College, 2014,27(3):18-21.
FBenefit analysis on multi-unit multi-batch online auctions for auction site. ACTA ANLYSIS FUNCTIONALIS APPLICATA, 2013, 15(3):218-224.
FWeight finite difference scheme for two-sided space fractional lévy-feller diffusion equation with Riesz-feller potential . Journal of Jingganagshan University, 2014, 35(5):18-21.
FA finite difference method for two-sided space fractional anomalous diffusion equation . Journal of Tangshan College, 2014, 27(6):11-13.
FSeveral Calculated Methods of the Probability Integral. Journal of Northwest University for Nationalities (Natural Science), 2009, 9, 30(3):26-32.
FAnalysis of stepwise regression based on the correlation factor of the cerebral infraction. Journal of NanYang Institute of Technolgy, 2009, 5, 1(3):114-116.
FPrincipal component analysis based on the factors related diabetes mellitus.Journal of Changchun University, 2009, 8, 19(4):61-63.
FAnalysis Based on Relevant Factors of Pulmonary Edema Morbidity. Journal of Hebei North University (Natural Science Edition), 2009, 8, 25(4):53-55.
FApplication of Trend Model Based on Nephritis Situation in Haixizhou Region. Journal of Hebei Polytechnic University (Natural Science Edition), 2009, 8, 25(4):53-55.
FAnalysis of Multiple Linear Regression Based on the Diabetes Mellitus and Nationalities. Journal of Shanxi Datong University (Natural Science) ,2009,8,25(4):2-4.
FApplication of Season Model Based on Bronchitis Situation in Haixizhou Region. Journal of Shenyang University, 2009, 12, 21(6):20-22.
FApplication of Non-linear Model Based on Nephritis Morbidity Situation in Haixizhou Region. Journal of jiujiang University, 2009, 12, 28(6):73-77.
FAlgorithm of Support Vector Machine Base on Nonlinear Problems of Regression and Classification Function. Journal of Tianshui Normal University,2009,9,29(5):44-47.
FSeveral Calculation Methods Based on the Generalized Probability Integral. Journal of Hexi University, 2009, 10, 25(5):26-34.
FResearch of Hypertension Morbidity Situation in Haixizhou Region Based on ADL Model. Journal of Zhejiang Wanli University, 2009, 22(5):6-9.
FStudy of BronchitisMorbidity in Ha ix i Prefecture Ba sed on ARMA Model. Journal of Yunnan University of Nationalities (Natural Sciences Edition), 2010, 7, 19(4):275-277.
FResearch of Nephritis Morbidity Situation in Haixizhou Region Based on Season Model. Journal of Beijing Union University (Natural Sciences), 2009, 3, 23(3):66-68.
FResearch of cerebral hemorrhage morbidity situation in Haixizhou region based on PDL Model. Journal of Hunan University of Arts and Science (Natural Science Edition), 2009, 21(3):17-19.
FCorrelation Analysis Based on Cerebral Infarction Morbidity and Factors of Sex and Age.Gansu Science and Technology, 2009, 12, 25(24):135-136.
FAnalysis of multiple linear regression based on the factors related pulmonary edema and nationalities. Journal of Huanggang Normal University, 2009, 12, 29(6):1-3.
FSeveral Calculated Methods of the Erratic Hermit Interpolation Type Polynomial. Journal of Longdong University, 2010, 3, 21(2):13-17.
FApplication of ECM in the Investigation of Hypertension Morbidity Situation in Haixizhou Region. Journal of Xihua University Natural Science, 2009, 11, 28(6):83-85.
FApplication of stepwise regression analysis in pathogenesis of diabetes. Journal of Bohai University (Natural Science Edition) ,2009,12,30(4):321-324.
FCorrelation Analysis Based on Cholecystitis Morbidity and Factors of Nationality and Meteorological. Journal of Xi, an University of Arts & Science (Nat Sci. Ed), 2010, 1, 13(1):62-64.
FResearch of Diabetes Mellitus Situation in Haixizhou Region Based on Multiple Linear Regression Model. Journal of Yili Normal University(Natural Science Edition),2010,14(2):38-40.
FApplication of Principal Component and Factor Analysis in Episodes of Pulmonary Heart Disease. Sichuan University of Arts and Science Journal, 2010, 3, 20(2):65-69.
FResearch of Hypertension Disease Situation in Haixizhou Region Based on GARCH Model. Journal of Northwest University for Nationalities (Natural Science), 2010, 9, 31(3):6-8.
FOn the Formation of Counter Example in the Teaching of Higher Mathematics. Journal of Panzhihua University, 2012, 29(2):122-123.
FARIMA Prediction Model on Retail Sales of Consumer Goods in Sichuan. Journal of Mianyang Normal University, 2012, 31(2):16-18.
FProof of Median Problem with Interpolation Algorithm. Journal of Wenzhou University, 2012, 33(5):28-35.
FCity Preference Research Based on the Regression Model. Journal of Gansu Lianhe Universuty, 2013, 27(2):18-21.
FThe application of auxiliary function in differential mean value theorem. Journal of Panzhihua University, 2013, 30(2):101-103.
FNumerical analysis for the variable order time fractional reaction diffusion equation. Journal of Jiangnan University, 2014, 13(1):109-112.
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