近期论文
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一、空间理论及其在PDE中的应用
[1] Ge Bin, Xue Xiaoping, Guo Mengshu, Three solutions to inequalities of Dirichlet problem driven by p(x)-Laplacian. Applied Mathematics and Mechanics, English Edition, 31 (2010): 1283-1292.
[2] Ge Bin, Xue Xiaoping, Zhou Qingmei, Multiple solutions for inequality Dirichlet problems by the p(x)-Laplacian. Nonlinear Analysis: Real World Applications, 11 (2010): 3198-3210.
[3] Ge Bin, Xue Xiaoping, Zhou Qingmei, The existence of radial solutions for differential inclusion problems in R^N involving the p(x)-Laplacian. Nonlinear Analysis: Theory, Methods Applications, 73 (2010): 622-633.
[4] Ge Bin, Xue Xiaoping, Zhou Qingmei,Existence of periodic solutions for a differential inclusion systems involving p(t)-Laplacian. Acta Mathematica Scientia, (31) 2011:1786-1802.
[5] Ge Bin, Xue Xiaoping, Zhou Qingmei, Existence of at least five solutions for a differential inclusion problem involving the p(x)-Laplacian. Nonlinear Analysis: Real World Applications, 12 (2011): 2304-2318.
[6] Ge Bin, Zhou Qingmei, Existence and multiplicity of solutions for a Neumann-type p(x)-Laplacian equation with nonsmooth potential. Electronic Journal of Qualitative Theory of Differential Equations, 17 (2011):1-12.
[7] Ge Bin, Xue, Xiaoping, Zhou, Qingmei, Multiple solutions for a p(x)-Kirchhoff-type equation with nonsmooth potential. (Chinese) Acta Math. Sci. Ser. A. (Chin. Ed.), 31 (2011), 1431-1438.
[8] Ge Bin, Multiple solutions for a class of fractional boundary value problems. Abstract and Applied Analysis, 2012, 468980, 1-13.
[9] Che Chengfu, Ge Bin, Xue Xiaoping, Zhou Qingmei, W-0(1,p(x)) Versus C-1 Local Minimizers for Nonsmooth Functionals. Mathematical Modelling and Analysis, 17 (2012): 396-402.
[10] Ge Bin, Zhou Qingmei, Multiple solutions to a class of inclusion problem with the p(x)-Laplacian. Applicable Analysis, 91(2012): 895-909.
[11] Ge Bin, Shen Jihong, Multiple solutions for a class of differential inclusion system involving the (p(x),q(x))-Laplacian. Abstract and Applied Analysis, 2012, 971243, 1-17.
[12] Ge Bin, Zhou Qingmei, Xue, Xiaoping, Multiplicity of solutions for differential inclusion problems in R^N involving the p(x)-Laplacian. Monatshefte für Mathematik, 168 (2012): 363-380.
[13] Ge Bin, Zhou Qingmei, Infinitely many positive solutions for a differential inclusion problem involving the p(x)-Laplacian. Mathematische Nachrichten, 285 (2012):1303-1315.
[14] Ge Bin, Zhou Qingmei, Xue, Xiaoping, Multiplicity of solutions for differential inclusion problems in R^N involving the p(x)-Laplacian. Zeitschrift fur Angewandte Mathematik und Physik, 63 (2012): 691-711.
[15] Ge Bin, Zhou Qing Mei, Eigenvalue problems for a hemivariational inequality driven by the p-Laplacian. Acta Math. Sinica (Chin. Ser.), 55 (2012), 207-218.
[16] Zhou Qingmei, Ge Bin, Three solutions for inequalities Dirichlet problem driven by p(x)-Laplacian-Like. Abstract and Applied Analysis, 2013, 575328, 1-6.
[17] Wu Yuhu, Ge Bin, A multiplicity result for the non-homogeneous Klein-Gordon-Maxwell system in rotationally symmetric bounded domains. J. Inequal. Appl., 583 (2013):1-12.
[18] Ge Bin, Zhou Qingmei, Three solutions for a differential inclusion problem involving the p(x)-Kirchhoff-type. Applicable Analysis, 92 (2013): 60-71.
[19] Ge Bin, Zhou Qingmei, Continuous spectrum of a fourth order nonhomogeneous differential operators with variable exponent. Electron. J. Qual. Theory Differ. Equ., 18(2013):1-11.
[20] Ge Bin, Sign changing solutions of the p(x)-Laplacian equation. Proc. Indian Acad. Sci. Math. Sci., 123 (2013): 515-524.
[21] Ge Bin, Zhou Qingmei, Some notes on M-hyponormal weighted shifts and hyp onormalizable weighted shifts. Chinese Quarterly Journal of Mathematics, 3 (2014) : 419-425.
[22] Ge Bin, On the superlinear problems involving the p(x)-Laplacian and a non-local term without AR-condition. Nonlinear Anal., 102 (2014): 133-143.
[23] Ge Bin, On superlinear p(x)-Laplacian-like problem without Ambrosetti and Rabinowitz condition. Bull. Korean Math. Soc., 51 (2014): 409-421.
[24] Ge Bin, Zhou, Qingmei, Existence and multiplicity of solutions for p(x)-Laplacian equations in R^N. Electron. J. Differential Equations, 133 (2014):1-8.
[25] S. Heidarkhani, Ge Bin, Critical points approaches to elliptic problems driven by a p(x)-Laplacian. Ukrainian Mathematical Journal, 66(2015) :1883-1903.
[26] Zhang Chao, Zhou Shulin, Ge Bin, Gradient estimates for the p(x)-Laplacian equation in R^N. Ann. Polon. Math., 114 (2015): 45-65.
[27] Zu Li, Jiang Daqing, O'Regan Donal, Ge Bin, Periodic solution for a non-autonomous Lotka-Volterra predator-prey model with random perturbation. J. Math. Anal. Appl., 430 (2015):428-437.
[28] Ge Bin, Zhou Qingmei, Zu Li, Positive solutions for nonlinear elliptic problems of p-Laplacian type on R^N without (AR) condition. Nonlinear Anal. Real World Appl., 21 (2015): 99-109.
[29] Ge Bin, Zhou Qingmei, Wu Yuhu, Eigenvalues of the p(x)-biharmonic operator with indefinite weight. Z. Angew. Math. Phys., 66 (2015): 1007-1021.
[30] Ge Bin, Zhang Chao, Existence of a positive solution to Kirchhoff problems involving the fractional Laplacian. Z. Anal. Anwend., 34 (2015): 419-434.
[31] Ge Bin, Zhang Chao, Existence of positive solutions to elliptic problems involving the fractional Laplacian. Bound. Value Probl., 235 (2015):1-12.
[32] Ge Bin, On an eigenvalue problem with variable exponents and sign-changing potential. Electron. J. Qual. Theory Differ. Equ., 92 (2015):1-10.
[33] Heidarkhani S., Afrouzi G.A., Moradi S., Caristi G., Ge Bin, Existence of one weak solution for p(x)-biharmonic equations with Navier boundary conditions. Z. Angew. Math. Phys., 67 (2016):1-13.
[34] Hou Gangling, Ge Bin, On superlinear fractional advection dispersion equation in R^N. Bound. Value Probl., 109 (2016): 1-10.
[35] Ge Bin, Multiple solutions of nonlinear Schrödinger equation with the fractional Laplacian. Nonlinear Anal. Real World Appl., 30 (2016): 236–247.
[36] Ge Bin, Liu Lili, Infinitely many solutions for differential inclusion problems in RN involving the p(x)-Laplacian. Z. Angew. Math. Phys., 67 (2016): 1-16
[37] Ge Bin, Existence theorem for Dirichlet problem for differential inclusion driven by the p(x)-Laplacian. Fixed Point Theory, 17 (2016): 267–274.
[38] Ge Bin, Zhang Chao, On the superlinear problems involving the fractional Laplacian. Rev. R. Acad. Cienc. Exactas Fís. Nat. Ser. A Math. RACSAM., 110 (2016): 343–355.
[39] Ge Bin, Cui Yingxin, Zhang Jichun, Infinitely many positive solutions for fractional differential inclusions. Electron. J. Differential Equations, 198 (2016): 1-18.
[40] Ge Bin, Radulescu Viceniu D. and Zhang Jichun, Infinitely many positive solutions of fractional boundary value problems. Topological Methods in Nonlinear Analysis, 49(2017): 647-664.
[41] Jia Lijiang, Ge Bin, Cui Yingxin, Sun Liangliang, Multiplicity solutions of a class fractional Schrödinger equations. Open Math., 15 (2017): 1010–1023.
[42] Ge Bin, Zhou Qing-mei, Multiple solutions for a Robin-type differential inclusion problem involving the p(x)-Laplacian. Mathematical Methods in the Applied Sciences, 40 (2017): 6229-6238.
[43] Ge Bin, Geng Chang, Nonhomogeneous eigenvalue problem with indefinite weight. Complex Variables and Elliptic Equations, 63 (2018): 266-277.
[44] Zhou Qingmei, Ge Bin, The fibering map approach to a nonlocal problem involving p(x)-Laplacian. Computers & Mathematics with Applications, 75 (2018): 632-642.
[45] Ge Bin, Lu Jianfang, Zhao Tingting, et al. Superlinear fractional boundary value problems without the Ambrosetti-Rabinowitz condition. Electron. J. Differential Equations, 85 (2018): 1-13.
[46] Hou Gangling, Ge Bin, Lu Jianfang, Infinitely many solutions for sublinear fractional Schrodinger-type equations with general potentials. Electron. J. Differential Equations, 97 (2018): 1-13.
[47] Ge Bin, Cui Yingxin, Sun Liangliang, et al. The positive solutions to a quasi-linear problem of fractional p-Laplacian type without the Ambrosetti-Rabinowitz condition. Positivity, 22 (2018): 873-895.
[48] Shapour Heidarkhani, Shahin Moradi, Giuseppe Caristi, Ge Bin, Perturbed fourth-orded Kirchhoff type problems. Tbilisi Math. J., 11 (2018): 113-143.
[49] Ge Bin, Sun Liangliang, Cui Yingxin, Infinitely many solutions for a class of elliptic problems involving the fractional Laplacian. Rev. R. Acad. Cienc. Exactas Fís. Nat. Ser. A Math. RACSAM., 113 (2019): 657-673.
[50] Wu Yuhu, Ge Bin, Olimpio H. Miyagaki, Existence results for the Klein-Gordon-Maxwell system in rotationally symmetric bounded domains. Z. Anal. Anwend., 38 (2019): 209-229.
[51] Ge Bin, Lu Jianfang, Existence and multiplicity of solutions for p(x)-curl systems without the Ambrosetti-Rabinowitz condition. Mediterr. J. Math., 16 (2019): 1-17.
[52] Ge Bin, Lv Dejing, Lu Jianfang, Multiple solutions for a class of double phase problem without the Ambrosetti-Rabinowitz conditions. Nonlinear Analysis, 188 (2019): 294-315.
[53] Ge Bin, Chen Zhiyuan, Existence of infinitely many solutions for double phase problem with sign-changing potential. Rev. R. Acad. Cienc. Exactas Fís. Nat. Ser. A Mat. RACSAM., 113(2019):3185-3196.
[54] Ge Bin, Viceniu D. Radulescu, Infinitely many solutions for a non-homogeneous differential inclusion with lack of compactness. Avanced Nonlinear Studies, 19(2019): 625-637.
[55] Ge Bin, Gui Xuelin, Lv Dejing, Existence of two solutions for p(x)-curl systems with a small perturbation. Rocky Mountain Journal of Mathematics, 49(2019): 1877-1894.
[56] Zhou Qingmei, Wang Ke1i, Ge Bin, On an eigenvalue problem involving the variable exponent and indefinite weight. U.P.B. Sci. Bull., Series A, 81(2019): 119-124.
[57] Ge Bin, Lv Dejing, Superlinear elliptic equations with variable exponent via perturbation method. Acta Applicandae Mathematicae, 166(2020), 85-109.
[58] Hou Gangling, Ge Bin, Zhang Beilei, Wang Liyan, Ground state sign-changing solutions for a class of double phase problem in bounded domains. Boundary Value Problem, 2020 (2020): 24.
[59] Ge Bin, Wang Liyan, Infinitely many solutions for a class of superlinear problems involving variable exponents. Advances in Differential Equations, 25(2020), 191-202.
[60] Chen Zhiyuan, Ge Bin, Yuan Wenshuo, Cao Xiaofeng, Existence of solution for double phase problem with singular weights. Advances in Mathematical Physics. Volume 2020, Article ID 5376013.
[61] Cheng Yi, Ge Bin, Ravi P. Aganwal, Variable-order fractional Sobolev spaces and nonlinear elliptic equations with variable exponents. Journal of Mathematical Physics, 2020, 61(7), 71507.
[62] Zhang Beilei, Ge Bin, Hou Gangling, Infinitely many positive solutions for a double phase problem. Boundary Value Problem, 2020 (2020): 142.
[63]Wang Binsheg, Hou Ganglin, Ge Bin, Existence and uniqueness of solutions for the p(x)-Laplacian equation with convection term. Mathematics, 2020, 8(10), 1-10, 1768.
[64] Zhang Beilei, Ge Bin, Cao Xiaofeng, Multiple Solutions for a class of new p(x)-Kirchhoff problem without the Ambrosetti-Rabinowitz conditions. Mathematics, 2020, 8 (11) , 2068.
[65] Ge Bin, Wang Liyan, Lu Jianfang, On a class of double-phase problem without Ambrosetti-Robinowitz-type conditions. Applicable Analysis, 2021, 100(10): 2147-2162.
[66] Hou Gangling, Ge Bin, Zhang Beilei, Wang Liyan, Multiple solutions to a class of electromagnetic p(x)-curl systems. Indian Journal of Pure and Applied Mathematics, 2021, 52(1), 125-137.
[67] Ge Bin, Zhang Beilei, Hou Gangling, Nehari-type ground state solutions for superlinear elliptic equations with variable exponent in R^N. Mediterranean Journal of Mathematics, 2021, 18: 61.
[68] Wang Binsheng, Hou Gangling, Ge Bin, Existence of solutions for double phase problems by topological degree. Journal of Fixed Point Theory and Applications. 2021, 23(1), 1-11.
[69] Gui Xuelin, Ge Bin, Infinitely many solutions for quasilinear elliptic equations without Ambrosetti-Rabinowitz condition and lack of symmetry. Journal of Mathematical Analysis and Applications. 2021, 498(2): 124971.
[70] Lian Chunbo, Hou Gangling, Ge Bin, Zhou Kang, Flocking behavior for a class of Cucker-Smale model with a perturbation. Journal of Applied Analysis and Computation. 2021, 11(4), 1825-1851.
[71] Lian Chunbo, Zhang Beilei, Ge Bin, Multiple solutions for double phase problems with Hardy type potential. Mathematics, 2021, 9(4), 376.
[72] Cao Xiaofeng, Ge Bin, Zhang Beilei, On a class of p(x)-Laplacian equations without any growth and Ambrosetti-Rabinowitz conditions. Advances in Differential Equations, 2021, 26 (5-6), 259-280.
[73] Ge Bin, Cao Xiaofeng, Yuan Wenshuo, Existence of two solutions for double-phase problems with a small perturbation. Applicable Analysis, 2021, 100(10), 2147-2162.
[74] Ge Bin, Liu Haicheng, Zhang Beilei, Small perturbations of elliptic problems with variable growth in R^N. Proceedings of the Royal Society A-Mathematical Physical and Engineering Sciences, 477(2021), 20200867.
[75] Ge Bin, Yuan Wenshuo, Cao Xiaofeng, Existence and nonexistence of solutions for the double phase problem. Results in Mathematics, 2021, 76: 132.
[76] Ge Bin, Zhuge Xiangwu, Yuan Wenshuo, Ground state solutions for a class of elliptic Dirichlet problems involving the p(x)-Laplacian. Analysis and Mathematical Physics, 2021, 11: 120.
[77] Ge Bin, Patrizia Pucci, Quasilinear double phase problems in the whole space via perturbation methods. Advances in Differential Equations, 2022, 27(1-2): 1-30.
[78] Ge Bin, Lu Jianfang, Multiple solutions for p(x)-curl systems with nonlinear boundary condition. Mathematische Nachrichten, 2022, 295(3): 512-535.
[79] Gao Shanshan, Wu Rui, Ge Bin, Topological structure of solution set to a fractional differential inclusion problem with delay, Symmetry, 2022, 14: 792. https://doi.org/10.3390/ sym14040792.
[80] Yuan Wenshuo, Ge Bin, Global well-posedness for pseudo-parabolic p-Laplacian equation withsingular potential and logarithmic nonlinearity. Journal of Mathematical Physics, 2022, 63(6): 061503.
[80] Ge Bin, Zhao Jinwei, Yuan Wenshuo, On double-phase problems without any growth and Ambrosetti-Rabinowitz conditions. Journal of Mathematical Physics, 2022, 63(9): 101619.
[89] Ge Bin, Yuan Wenshuo, Existence of at least two solutions for double phase problem. Journal of Applied Analysis and Computation, 2022, 12(4): 1443-1450.
[90] Gui Xuelin, Ge Bin, Existence and multiplicity of solutions for generalized quasilinear Schrödinger equations. Complex Variables and Elliptic Equations, 2022, 67(10): 2360-2381.
[91] Chen Zhiyuan, Ge Bin, On a double phase problem with singular weights. Acta Mathematicae Applicatae Sinica (Chinese Series), 2022, 45(4): 624-636.
[92] Wang Liyan, Chi Kun, Shen Jihong, Ge Bin, Infinitely many solutions for a class of elliptic problems involving the fractional p,q-Laplacian. Symmetry, 2022, 14(12), 2486.
[93] Wang Liyan, Shen Jihong, Chi Kun, Ge Bin, On a class of double phase problem with nonlinear boundary condition. Electronic Research Archive, 2023, 31(1): 386-400.
[94] Shen Jihou, Wang Liyan, Chi Kun, Ge Bin, Existence and multiplicity of solutions for a quasilinear double phase problem on the whole space. Complex Variables and Elliptic Equations, 2023, 68(2): 306-316.
[95] Ge Bin, Zhang Beilei, Yuan Wenshuo, Multiple nontrivial solutions for superlinear double phase problem via Morse theory. Chinese Annals of Mathematics, Series B, 2023, 44(1): 49-66.
[96] Ge Bin, Yuan Wenshuo, Existence and multiplicity of radial solutions for double phase problem on the entire space. Acta Mathematica Scientia (Chinese Series), 2023, 43(A)(2): 433-446.
[97] Yuan Wenshuo, Ge Bin, Cao Qinghai, Initial boundary value problem for p-Laplacian type parabolic equation with singular potential and logarithmic nonlinearity. Analysis and Mathematical Physics, 2023, 13(1): 20.
[98] Ge Bin, Yuan Wenshuo, On the solvability of variable exponent differential inclusion systems with multivalued convection term. Rocky Mountain Journal of Mathematics, 2023, 53(2), 449-462.
[99] Zhao Jinwei, Ge Bin, Liu Lu, Effective dynamics for a class of stochastic weakly damped wave equation with a fast oscillation. Journal of Mathematical Physics, 2023, 64(5), 051509.
[100] Ge Bin, Cao Qinghai, Zhang Yu, Renormalized nonnegative solutions for the double phase Dirichlet problems with $L^1$ data. Journal of Mathematical Physics, 2023, 64(5), 051507.
[101] Yuan Wenshuo, Liu Haicheng, Ge Bin, Cao Qinghai, The existence of solutions for parabolic problem with the limiting case of double phase flux. Zeitschrift für angewandte Mathematik und Physik, 2023, 74(6): 213.
[102] Zhang Beilei, Ge Bin, Gradient estimates for the double phase problems in the whole space. Electronic Research Archive, 2023, 31(12), 7349-7364.
[103] Yuan Wenshuo, Ge Bin, Cao Qinghai, Global well-posedness of solutions to a class of double phase parabolic equation with variable exponents. Potential Analysis. 2024, 60(3): 1007-1030.
[104] Cao Qinghai, Ge Bin, Zhang Yuting, The Nehari manifold for double-phase problems with convex and concave nonlinearities. Mathematische Nachrichten. 2024, 297(2): 512-524.
[105] Ge Bin, Gao Shanshan, On a class of fractional p(.,.)-Laplacian equations in the whole space. Discrete and Continuous Dynamical Systems - Series S. 2023, Accepted. DOI:10.3934/dcdss.2023136.
[106] Ge Bin, Cao Qinghai, Ren Haixin, A class of double phase problem without Ambrosetti-Rabinowitz-type growth condition: infinitely many solutions. Topological Methods in Nonlinear Analysis. 2023, Accepted.
[107] Ge Bin, Gao Shanshan, Yuan Wenshuo, Existence of solutions for double phase problems involving convection term via a fixed point approach. Fixed Point Theory. 2022, Accepted.
[108] Ge Bin, Patrizia Pucci, Differential inclusion obstacle problems with variable exponent and convection term. Fixed Point Theory. 2023, Accepted.
[109] Ge Bin, Han Yuhang, Yuan Wenshuo, Quasilinear double phase problems with parameter dependent performance on the whole space. Bulletin des Sciences Mathématiques. 2024,191: 103371.
[110] Ge Bin, Cao Qinghai, Yuan Wenshuo, Infinitely many low- and high-energy solutions for double phase problems with nonstandard growth. Journal of Mathematical Physics. 2023, 64(12), 158401.
[111] Kefi Khaled, Ge Bin, On the p(x)-Curl-system problem with indefinite weight and nonstandard growth conditions. Mathematical Notes. 2023, 114(6): 1246-1254.
[112] Ge Bin, Cao Qinghai, Zhang Yu, Infinitely many positive solutions for a double phase problems involving the double phase operator. Topological Methods in Nonlinear Analysis. 2024, Accepted.
二、控制及优化
[1] 周一公, 葛斌, 高珊珊, 时变耦合作用下一类离散Winfree模型的同步性分析, 系统科学与数学, 2022, 42(7): 1660-1684.
[2] Lv Dejing, Ge Bin, Wu Mingze, Reach control problem for a class of convex differential inclusions on simplices. IMA Journal of Mathematical Control and Information, 2022, 39(2): 751-772. http://doi.org/10.1093/imamci/dnac009.
[3] Ge Bin, Zhuge Xiangwu, Ren Haixin, Convergence rates of damped inerial dynamics from multi-degree of freedom system. Optimization Letters, 2022, 16(9): 2753-2774.
[4] Lv Dejing, Wu Mingze, Ge Bin, Reach control problem for affine multi-agent dynamic systems on simplices by affine feedback. Asian Journal of Control, 2023, 25(1): 335-344.
[5] Ren Haixin, Ge Bin, Zhuge Xiangwu, Fast Convergence of Inertial Gradient Dynamics with Multiscale Aspects. Journal of Optimization Theory and Applications, 2023, 196(5): 461-489.
[6] Song Xuewei, Lian Chunbo, Ge Bin, Optimal Control of the Incomplete Boolean Control Networks with Delay, Mathematica Applicata, 2023, 36(03): 780-787.
[7] Lian Chunbo, Han Ning, Ge Bin, Li Lin, Flocking effects of the stochastic Cucker-Smale system with a leader and noise, Journal of Systems Science & Complexity, 2023. Accepted.
三、生物数学
[1] Liu Haicheng, Ge Bin, Chen Jiaqi, Liang Qiyuan, Dynamics in diffusive plankton system with time delay and Tissiet functional response. Journal of Applied Mathematics and Computing, 2021, 68(2): 1313-1334.
[2] Liu Haicheng, Ge Bin, Liang Qiyuan, Chen Jiaqi, A delayed semilinear parabolic predator-prey system with habitat complexity and harvesting effects. Journal of Applied Analysis and Computation, 2021, 11(5): 2561-2582.
[3] Liu Haicheng, Ge Bin, Turing instability of periodic solutions for the Gierer-Meinhardt model with cross-diffusion. Chaos Solitons Fractals, 2022, 155: 111752.
[4] Zhong Fengyuan, Xu Zicheng, Ge Bin, Hopf bifurcation analysis of a class of abstract delay differential equation. Journal of Nonlinear Modeling and Analysis, 2022, 4(2): 276-289.
[5] Liu Haicheng, Ge Bin, Chen Jiaqi, Liang Qiyuan, A semilinear parabolic predator-prey system with time delay and habitat complexity effect. International Journal of Biomathematics, 2022, 15(2): 2150092.
[6] Liu Haicheng, Ge Bin, Spatiotemporal dynamics in a generalized diffusive population system of natural pinus koraiensis with time delay. CSIAM Transactions on Applied Mathematics, 2022, 3(2): 273-298. DOI: 10.4208/csiam-am.SO-2021-0033
[7] Liu Haicheng, Ge Bin, Liang Qiyuan, Chen Jiaqi, Bifurcation analysis of the cancer virotherapy system with time delay and diffusion, International Journal of Biomathematics, 2022, 15(8): 2250056.
[8] Liu Haicheng, Ge Bin, Shen Jihong, Dynamics of periodic solutions in the  reaction-diffusion glycolysis model: Mathematical mechanisms of Turing pattern formation, Applied Mathematics and Computation, 2022, 431: 127324.
[9] Liu Haicheng, Yuan Wenshuo, Ge Bin, Shen Jihong, Cross-diffusion induced Turing instability of Hopf bifurcating periodic solutions in the reaction-diffusion enzyme reaction model, International Journal of Biomathematics, 17(2024), no. 4, Paper No.2350036.
[10] Feng Guofeng, Chen Jiaqi, Ge Bin, A Class of Natural Pinus Koraiensis Population System with Time Delay and Diffusion Term, International Journal of Biomathematics, 17(2024), no. 2, Paper No.2350019.
[11] Liu Haicheng, Ge Bin, Spatial Turing Patterns of Periodic Solutions for the Brusselator System with Cross-Diffusion-Like Coupling. Internat. J. Bifur. Chaos Appl. Sci. Engrg. 33 (2023), no. 13, Paper No. 2350148.
四、其它(网络结构与食品评估等)
[1] Sun Dayang, Liu Yanheng, Wang Aimin, Ge Bin, Research on Service-oriented Lifetime and Network Density in WSN, PROCEEDINGS OF THE 9TH INTERNATIONAL CONFERENCE FOR YOUNG COMPUTER SCIENTISTS, VOLS 1-5 Pages: 439-444.
[2] Ge Bin, Xu Xingjun, The Proof and Application of Determinant Identities, International Journal of Mathematics and Computation, 5 (2009): 89-97.
[3] Sun Dayang, Leung Victor, Qian Zhihong, Liu Yanheng, Ge Bin, Beacon deployment strategy for guaranteed localization in wireless sensor networks. Wireless Networks, 22 (2016): 1947-1959.
[4] Jia Lijiang, Ge Bin, Liu Lili, et al. A series of sequences convergent to Euler’s constant. Journal of Inequalities and Applications, 136 (2018):1-10.
[5] Hou Gangling, Ge Bin, Sun Liangliang, Xing Kaixin, A study on wine sensory evaluation by the statistical analysis method. Czech Journal of Food Sciences, 38(2020), 1-10.
[6] Zhou Shanghong, Yao Y., Zhang Yuting, Ge Bin, Electromagnetic Particle Algorithm for Beam-Wave Interaction in Traveling Wave Tube of Symmetry. Symmetry, 2022, 14, 2119. DOI: 10.3390/ sym14102119.
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