Biography

Prof. Changjin Xu

Guizhou Key Laboratory of Economics System Simulation

Guizhou University of of Finance and Economics, China

Professor


Email: xcj403@126.com


Qualifications

Ph.D., Central South University, China


Publications(Selected)

  1. Changjin Xu, Xianhua Tang and Maoxin Liao, Frequency domain analysis for bifurcation in a simplified tri-neuron BAM network model with two delays, Neural Networks 23(7) (2010),872-880.
  2. Changjin Xu, Xianhua Tang and Maoxin Liao, Global existence of periodic solutions in a six-neuron BAM neural network model with discrete delays, Neurocomputing 74(17) ( 2011) ,3257-3267.
  3. Changjin Xu, Xianhua Tang and Maoxin Liao, Stability and bifurcation analysis of a delayed predator-prey model of prey dispersal in two-patch environments, Applied Mathematics and Computation 216(10)(2010), 2920-2936.
  4. Changjin Xu, Xianhua Tang and Maoxin Liao, Stability and bifurcation analysis of a six-neuron BAM neural network model with discrete delays, Neurocomputing
  5. Changjin Xu, Xianhua Tang and Maoxin Liao,Local Hopf bifurcation and global existence of periodic solutions in a TCP system, Applied Mathematics and Mechanics 31 (6) (2010), 775-786.
  6. Changjin Xu, Xianhua Tang and Maoxin Liao, Xiaofei He, Bifurcation analysis in a delayed Lokta-Volterra predator-prey model with two delays, Nonlinear Dynamics 66 (1-2) (2011),169-183.
  7. Changjin Xu, Maoxin Liao and Xiaofei He, Stability and Hopf bifurcation analysis for a Lokta-Volterra predator-prey model with two delays, International Journal of Applied Mathematics & Computer Science 21(1) (2011) ,97–107.
  8. Changjin Xu and Xiaofei He, Stability and bifurcation analysis in a class of two-neuron networks with resonant bilinear terms, Abstract and Applied Analysis, Volume 2011 (2011), Article ID 697630, 21 pages.
  9. Changjin Xu and Yuanfu Shao, Bifurcations in a predator-prey model with discrete and distributed time delay, Nonlinear Dynamics 67(3) (2012), 2207-2223.
  10. Changjin Xu and Maoxin Liao, Bifurcation analysis of an autonomous epidemic predator- prey model with delay, Annali di Matematica Pura ed Applicata 193(1)(2014),23-28.
  11. Changjin Xu and Peiluan Li, Dynamical analysis in a delayed predator-prey model with two delays, Discrete Dynamics in Nature and Society, Volume 2012, Article ID 652947, 22 pages.
  12. Changjin Xu, Xianhua Tang and Maoxin Liao,Stability and bifurcation analysis on a ring of five neurons with discrete delays, Journal of Dynamical and Control Systems 19(2)(2013), 237–275.
  13. Changjin Xu,Xianhua Tang and Maoxin Liao, Bifurcation analysis of a delayed predator-prey model of prey migration and predator switching, Bulletin of the Korean Mathematical Society 50(2013)353-373.
  14. Changjin Xu and Peiluan Li, Dynamics in a delayed neural network model of two neurons with inertial coupling, Abstract and Applied Analysis, Volume 2012, Article ID 689319, 17 pages.
  15. Changjin Xu,  Bifurcation analysis for a predator-prey model with time delay and delay dependent parameters, Abstract and Applied Analysis, Volume 2012 , Article ID 264870, 20 pages.
  16. Changjin Xu, Qianhong Zhang and Maoxin Liao, Existence and global attractivity of positive periodic solutions for a delayed competitive system with the effect of toxic substances and impulses, Applications of Mathematics 58 (3) (2013),309-328.
  17. Changjin Xu, Peiluan Li and Yuanfu ShaoExistence and global attractivity of positive periodic solutions for a Holling II two-prey one-predator systemAdvances in Difference Equations 84 (2012), 1-15.
  18. Changjin Xu, Bifurcation analysis for a delayed sea-air oscillator coupling model for the ENSO, Acta Physica Sinica 61 (22) (2012), 220203.
  19. Changjin Xu,Neimark-Sacker bifurcation analysis for a discrete-time system of two neurons, Abstract and Applied Analysis, Volume 2012 (2012), Article ID 546356, 16 pages.
  20. Changjin Xu, Stability and bifurcation analysis in a viral model with delay, Mathematical Methods in the Applied Sciences 36(10)(2013),1310-1320.
  21. Changjin Xu, Yuanfu Shao and Peiluan Li, Uniformly strong persistence for a  delayed predator-prey model   Journal of Applied Mathematics, Volume 2012,  Article ID 358918, 7 pages.
  22. Changjin Xu and Maoxin Liao, Bifurcation behaviors in a delayed three-species food-chain model with Holling type-II functional response, Applicable Analysis 92(12)(2013),2468-2486.
  23. Changjin Xu and Yusen Wu,The effect of time delay on dynamical behavior in an eco-epidemiological model  Journal of Applied Mathematics, Volume 2012,  Article ID 286961, 18 pages.
  24. Changjin Xu and Yusen Wu, Positive periodic solutions in a discrete time three species competition system, Journal of Applied Mathematics, Volume 2013, Article ID 963046, 13 pages. (SCI)
  25. Changjin Xu and Peiluan Li, Bifurcation behaviors analysis on a predator-prey model with nonlinear diffusion and delay, Journal of Dynamical and Control Systems 20(1) (2014) 105-122.
  26. Changjin Xu and Yusen Wu, On the nature of bifurcation ratio-depe dent predator-prey model with delays, Journal of Applied Mathematics, Volume 2013, Article ID 679602, 17 pages, 2013
  27. Changjin Xu and Yusen Wu, Dynamics in a Lotka-Volterra predator-prey model with time-varying delays,  Abstract and Applied Analysis, Volume 2013, Article ID 956703, 9 pages.
  28. Changjin Xu and Yusen Wu, Permanence in a discrete mutualism model with infinite deviating arguments and feedback controls, Discrete Dynamics in Nature and Society, Volume 2013, Article ID 397382, 7 pages.
  29. Changjin Xu and Qiming Zhang,Bifurcation analysis of a tri-neuron neural network model in the frequency domain, Nonlinear Dynamics76(1)(2014),33-46.
  30. Changjin Xu and Peiluan Li, On the periodicity and global stability for a discrete delayed predator-prey model,  International Journal of Mathematics 24(10)(2013) ,1350086.
  31. Changjin Xu and Qiming Zhang, Existence and exponential stability of anti-periodic solutions for a high-order delayed Cohen-Grossberg neural networks with impulsive effects, Neural Processing Letters  40(3)(2014),227-243.
  32. Changjin Xu and Qiming Zhang, Existence and stability of pseudo almost periodic solutions for shunting inhibitory cellular neural networks with neutral type delays and time-varying leakage delays, Network:Computation in Neural Systems 25(4)(2014), 168-192.
  33. Changjin Xu and Yusen Wu, Bifurcation and control of chaos in a chemical system, Applied Mathematical  Modelling 39 (8)(2015), 2295-2310 .
  34. Changjin Xu and Qiming Zhang, Existence and global exponential stability of anti-periodic solutions for BAM neural networks with inertial term and delay, Neurocomputing 153(2015)106-116.
  35. Changjin Xu and Qiming Zhang, On anti-periodic solutions for Cohen-Grossberg shunting inhibitory neural networks with time-varying delays and impulses, Neural Computation  26(10)(2014) ,2328-2349.
  36. Changjin Xu and Qiming Zhang,Anti-periodic solutions in a ring of four neurons with multiple delays, International Journal of Computer Mathematics 92(5)(2015) 1086-1100.
  37. Changjin Xu and Qiming Zhang, On the chaos control of the Qi system, Journal of Engineering Mathematics  90(1)(2015)67-81.
  38. Changjin Xu,Yusen Wu and lin Lu, Permanence and global attractivity in a discrete Lotka-Volterra predator-prey model with delays, Advances in Difference Equations  208(2014),1-15.
  39. Changjin Xu and Maoxin Liao, On anti-periodic solutions for nonlinear Duffing equations with a deviating argument and time-varying delay, Advances in Mathematical Physics Volume 2014, Article ID 734632, 7 pages, 2014.
  40. Changjin Xu and Peiluan Li, Oscillations for a delayed predator-prey model with Hassell- Varley type functional response, Comptes Rendus Biologies 338(4)(2015),227-240.
  41. Changjin Xu and Yuanfu Shao, Peiluan Li, Bifurcation behavior for an electronic neural network model with two different delays, Neural Processing Letters 42(3)(2015) ,541-561.
  42. Changjin Xu and Qiming Zhang, Existence and global exponential stability of anti-periodic solutions of high-order bidirectional  associative memory (BAM) networks with time-varying delays on time scales, Journal of Computational Science  8(2015),48-61.
  43. Changjin Xu and Yusen Zu, Permanence of a two species delayed competitive model with stage structure and harvesting, Bulletin of the Korean Mathematical Society 52(4)(2015),1069-1076.
  44. Changjin Xu and Yusen Wu,Anti-periodic solutions for high-order cellular neural networks with mixed delays and impulses, Advances in Difference Equations 161(2015), 1-15.
  45. Changjin Xu and Peiluan Li, Dynamics in four-neuron BAM networks with inertia and multiple delays, Cognitive Computation 8 (1) (2016) ,78-104.
  46. Changjin Xu, Qiming Zhang and Yusen Wu,Existence and exponential stability of periodic solution to fuzzy cellular neural networks with distributed delays, International Journal of Fuzzy Systems 18(1)(2016),41-51.
  47. Changjin Xu and Maoxin Liao, Existence and uniqueness of pseudo almost periodic solutions for Lienard-type systems with delays, Electronic Journal of Differential Equations170(2016),1-8.
  48. Changjin Xu and Yusen Wu, On almost automorphic solutions for cellula neural networks with time-varying delays in leakage terms on time scales, Journal of Intelligent and Fuzzy Systems 30(2016),423-436.
  49. Changjin Xu, Qiming Zhang and Yusen Wu, Bifurcation analysis in a three-neuron artificial neural network model with distributed delays, Neural Processing Letters 44(2)(2016),343-373.
  50. Changjin Xu and Maoxin Liao, Almost automorphic solutions for shunting inhibitory cellular neural networks with time-varying delays, SpringerPlus 2(2015),15 pages.
  51. Changjin Xu and Peiluan Li, Existence and exponentially stability of anti-periodic solutions for neutral BAM neural networks with time-varying delays in the leakage terms, Journal of Nonlinear Science and Applications 9(3)(2016),1285-1305.
  52. Changjin Xu and Peiluan Li, Dynamical analysis in exponential RED algorithm with communication delay, Advances in Difference Equations 1(2016),1-24.
  53. Changjin Xu, Existence and exponential stability of anti-periodic solution in cellular neural networks with time-varying delays and impulsive effects, Electronic Journal of Differential Equation 2016(2)(2016),1-14 .
  54. Changjin Xu, Qiming Zhang and Peiluan Li, Dynamics in a two-species competitive model of plankton allelopathy with delays and feedback controls, Publicationes Mathematicae Debrecen 89(1-2)(2016),1-22.
  55. Changjin Xu, Yicheng Pang and Peiluan Li, Anti-periodic solutions of Cohen- Grossberg shunting inhibitory cellular neural networks on time scales, Journal of Nonlinear Science and Applications 9(5)(2016)2376-2388.
  56. Changjin Xu, Peiluan Li and Yicheng Pang, Global exponential stability for interval general bidirectional associative memory (BAM) neural networks with proportional delays,Mathematical Methods in the Applied Sciences 39(8)(2016),5720-5731.
  57. Changjin Xu and Maoxin Liao,Yicheng Pang,Existence and p-exponential stability of periodic solution for stochastic shunting inhibitory cellular neural networks with time-varying delays, International Journal of Computational Intelligence Systems 9(5)(2016),945-956.
  58. Changjin Xu and Maoxin Liao,Yicheng Pang , Existence and convergence dynamics of pseudo almost periodic solutions for Nicholsons blowflies model with time-varying delays and a harvesting term, Acta Applicandae Mathematicae 146(1)(2016),95-112.
  59. Changjin Xu, Qiming Zhang and Yusen Wu,Bifurcation analysis for two-neuron networks with discrete and distributed delays, Cognitive Computation 8(6)(2016),1103-1118.
  60. Changjin Xu and Peiluan Li, Yicheng Pang,Exponential stability of almost periodic solutions for memristor-based neural networks with distributed leakage delays, Neural Computation  28(12)(2016),2726-2756.
  61. Changjin Xu, Peiluan Li and Yicheng Pang,Existence and exponential stability of almost periodic solutions for neutral-type BAM neural networks with distributed leakage delays, Mathematical Methods in the Applied Sciences 40(6)(2017),2177-2196.
  62. Changjin Xu and Peiluan Li,Pseudo almost periodic solutions for high-order Hopfield neural networks with time-varying leakage delays,Neural Processing Letters, 46(1)(2017),41-58.
  63. Changjin Xu and Peiluan Li,Global exponential stability of periodic solution for fuzzy cellular neural networks with distributed delays and variable coefficients, Journal of Intelligent and Fuzzy Systems 32(2)(2017),2603-2615.
  64. Changjin Xu and Peiluan Li, Exponential stability for fuzzy BAM cellular neural networks with distributed leakage delays and impulses, Advances in Difference Equations 276 (2016), 1-14.
  65. Changjin Xu and Peiluan Li, pth moment exponential stability of stochastic fuzzy Cohen -Grossberg neural networks with discrete and distributed delays, Nonlinear Analysis: Modelling and Control 22(4)(2017),531-544.
  66. Changjin Xu, Peiluan Li andYicheng Pang, Finite-time stability for fractional-order bidirectional associative memory neural networks with time delays, Communications in Theoretical Physics 67(2)(2017),137-142.
  67. Changjin Xu and Peiluan Li, Yicheng Pang, Existence and global exponential stability of almost periodic solutions for BAM neural networks with distributed leakage delays on time scales, Journal of Applied Analysis and Computation 7(4)(2017),1200-1232.
  68. Changjin Xu and Peiluan Li, Time effect on the dynamical behavior of a life energy system dynamic model, Journal of Nonlinear Science and Applications 10(2)(2017),656-670.
  69. Changjin Xu, Peiluan Li, New stability criteria for high-order neural networks with proportional delay, Communications in Theoretical Physics 67(3)(2017)235-240.
  70. Changjin Xu, Peiluan Li, Global exponential convergence of neutral-type Hopfield neural networks with multi-proportional delays and leakage delays, Chaos, Solitons & Fractals96(2017),139-144.
  71. Changjin Xu, Delay-induced oscillations in a competitor-competitor-mutualist Lotka Volterra model, Complexity, Volume 2017,  Article ID 2578043, 12 pages.
  72. Changjin Xu, Global exponential convergence of fuzzy cellular neural networks with proportional delays and impulsive effects, Journal of Intelligent and Fuzzy Systems 33(2)(2017)969-977.
  73. Changjin Xu, Global exponential periodicity for fuzzy cellular neural networks with proportional delays, Journal of Intelligent and Fuzzy Systems 33(2)(2017),829-839.
  74. Changjin Xu, Peiluan Li, Global exponential convergence of fuzzy cellular neural networks with leakage delays, distributed delays and proportional delays, Circuits, Systems, and Signal Processing 37(1)(2018),163-177.
  75. Changjin Xu and Peiluan Li, On anti-periodic solutions for neutral shunting inhibitory cellular neural networks with time-varying delays and  D operator, Neurocomputing 275(2018),377-382.
  76. Changjin Xu and Peiluan Li,Periodic dynamics for memristor-based bidirectional associative memory neural networks with leakage delays and time-varying delays, International Journal of Control, Automation and Systems(Accepted)
  77. Changjin Xu and Maoxin Liao, Dynamical behavior for a stochastic two-species competitive model, Open Mathemaitcs 15(2017),1258-1266.
  78. Changjin Xu and Peiluan Li, Global asymptotical stability of almost periodic solutions for a non-autonomous competing model with time-varying delays and feedback controls, Journal of Biological Dynamics (Accepted)
  79. Changjin Xu and Peiluan Li, On p-th moment exponential stability for stochastic cellular neural networks with distributed delays, International Journal of Control, Automation and Systems(Accepted)
  80. Changjin Xu,Xianhua Tang and Peiluan Li, Existence and global stability of almost automorphic solutions for shunting inhibitory cellular neural networks with time-varying delays in leakage terms on time scales,Journal of Applied Analysis and Computation (Accepted)



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