Publications

Here journal papers only

  1. Ziyin Wang, Rubin Wang, Energy Distribution Property and Energy Coding of a Structural Neural Network. Frontiers in Computational Neuroscience. 21 February 2014 | doi: 10.3389/fncom.2014.00014 2014)

  2. Hongwen Zheng, Rubin Wang, Linkun Qiao, The molecular dynamics of neural metabolism during the action potential. Science China. Technological Science. May 2014, Volume 57, Issue 5, pp 857-8632014SCI

  3. Rubin Wang, Guanzheng Wang, Jinchao ZhengAn Exploration of the Range of Noise Intensity that Affects the Membrane Potential of Neurons. Abstract and Applied Analysis. Volume 2014 (2014), Article ID 801642, 11 pages. http://dx.doi.org/10.1155/2014/801642SCI. (2014) SCI

  4. Yi Qi, Rubin Wang, Xianfa JiaoThe effect of inhibitory neuron on the evolution model of higher-order coupling neural oscillator population. Computational and Mathematical Methods in Medicine. Volume 2014 (2014), Article ID 174274, 10 pages. http://dx.doi.org/10.1155/2014/174274 (2014) SCI

  5. Ying-Ying Zhang, Ru-Bin Wang, Xiao-Chuan Pan, Hai-Qing Gong, Pei-Ji Liang, Visual pattern discrimination by population retinal ganglion cells&rsquo: activities during natural movie stimulation. Cognitive Neurodynamics. 8(1), pp 27-35, 2014 SCI

  6. Ailei Xu, Ying Du, Rubin Wang, Interaction between different cells in olfactory bulb and synchronous kinematic analysis. Discrete Dynamics in Nature and Society. Volume 2014 (2014), Article ID 808792, 9 pages,SCI, http://dx.doi.org/10.1155/2014/808792

  7. Qing Zhu, Rubin Wang, Zinyin WangA cognitive map model based on spatial and goal-oriented mental exploration in rodents. Behavioural Brain Research. 256(1), pp 128-139, 2013, SCI

  8. Wang, Rubin, Zhang, Zhikang, Tse Chi K, Qu Jingyi, Cao JiantingNeural coding in networks of multi-populations of neural oscillators. Mathematics and Computers in Simulation. Vol.86, 52-66 (2012), SCI

  9. Qu jingyi, Wang RB, Dynamics of cortical neural networks based on a simple model. Chinese Physics Letters. 29(8), doi:10.1088/0256-307X/29/8/080503, 2012. SCI

  10. Du, Ying, Wang, Rubin, Han Fang, Lu Qishao, Qu JingyiFiring pattern and synchronization property analysis in a network model of the olfactory bulb. Cognitive Neurodynamics. 6(2), pp 203-209, 2012/4, SCI

  11. Qu, Jingyi, Wang Rubin, Du Ying, Cao Jianting, Synchronization study in ring-like and grid-like neuronal networks. Cognitive Neurodynamics, 6(1), pp 21-31, 2012/2, SCI

  12. Rubin Wang, Zhikang Zhang, Phase Synchronization Motion and Neural Coding in Dynamic Transmission of Neural Information. IEEE Transactions on Neural Networks. Vol.22, No.7, 1097-1106 (2011) (SCI)

  13. 王如彬,张志康,基于信息编码的神经能量计算. 力学学报, 44(5), pp 779-786, 2012EI

  14. 郑锦超,王如彬 ,神经能量与神经信息之间内在动力学关系初探. 力学学报.  44(5), pp 919-927, 2012. EI

  15. 徐爱蕾,杜莹,王如彬 ,嗅球中神经元间的相互作用及同步运动分析.振动与冲击. 32(2), pp 175-181, 2013EI

  16. 徐旭颖, 王如彬 ,神经元高低状态切换发放的神经动力学. 动力学与控制学报. 12(1), 2014

  17. 王如彬, 王关正, 倪力, 郑锦超,神经元膜电位噪声取值范围的评估. 动力学与控制学报.  12(1), 2014

  18. 王如彬,周轶,张志康. 具有延时作用的基底膜主动耦合模型. 振动与冲击. Vol.30, No.12.  49-53 (2011) (EI)

  19. Xiaochuan Pan, Masamichi Sakagami, Category representation and generalization in the prefrontal
    cortex, European Journal of Neuroscience, Vol. 35, 1083–1091, (2012)

  20. Chaofei Ma, Xiaochuan Pan, Rubin Wang, Masamichi Sakagami, Estimating causal interaction between prefrontal cortex and striatum by transfer entropy, Cognitive Neurodynamics (accepted)

  21. Rubin Wang, Zhikang Zhang, Phase Synchronization Motion and Neural Coding in Dynamic Transmission of Neural Information. IEEE Transactions on Neural Networks Vol.22, No.7, 1097-1106  (2011)

  22. Rubin Wang, Zhikang Zhang, Neural coding in networks of multi-populations of neural oscillators. Mathematics and Computer in Simulations. doi:10.1016/j.matcom.2010.10.029
  23. Wei Dong, Rubin Wang, Exploring Human Rhythmic Gait Movement in the Role of Cerebral Cortex Signal. Applied Mathematics and Mechanics Vol.32, No.2, 223-230 (2011)

  24. Ying Du, Rubin Wang, Qishao Lu, Fang Han, Firing pattern and synchronization property analysis in a network model of the olfactory bulb. Cognitive Neurodynamics Vol.6, No.2, 203-209 (2012)

  25. Wei-Gang Sun, Jian-Ting Cao, Ru-Bin Wang, Approach of complex networks for the determination of brain death. Chinese Physics Letters Vol.28, No.6. 068701  (2011) 

  26. Qiwei Shi, Juhong Yang, Jianting Cao, Rubin Wang, EEG Data Analysis Based on EMD for Coma and Quasi-Brain-Death Patients. Journal of Experimental & Theoretical Artificial Intelligence. Vol.23, No.1, 97-110  (2011)

  27. Wei Zhou, Gang Liu, Qiwei Shi, Shilei Cui, Yina Zhou, Huili Zhu, Rubin Wang, and Jianting Cao, Blind Testing of Quasi Brain Deaths Based on Analysis of EEG Energy, Lecture Notes in Artificial Intelligence. Vol. 6840, pp. 514-520 (2011)

  28. Weigang Sun, Rubin Wang, Weixiang Wang and Jianting Cao, Analyzing inner and outer synchronization between two coupled discrete-time networks with time delays.Cognitive Neurodynamics Vol.4, No.3, 225-231 (2010)  (SCI, doi:10.1007/s11571-010-9118-9)
  29. Xiaodan Zhang, Rubin Wang, Zhikang Zhang, Dynamic phase synchronization characteristics of variable high-order coupled neuronal oscillator population. Neurocomputing. 73, 2665-2670 (2010) 

  30. Du ying,Lu qishao, Wang rubin,Using interspike intervals to quantify noise effects on spike trains in temperature encoding neurons.Cognitive Neurodynamics Vol.4, No.3, 199-206 (2010)
  31. Du ying,Lu qishao, Noise effects on Temperature Encoding of Neuronal Spike Trains in a Cold Receptor.Chinese Physcis Letter vol,27,No.2,2010
  32. Yan Liu, Rubin Wang, Zhikang Zhang, Xianfa Jiao. Analysis on Stability of Neural Network in the Presence of Inhibitory Neurons.Congnitive Neurodynamics Vol.4, No.1, 61-68 (2010)
  33. Qiwei Shi, Wei Zhou, Jianting Cao, Danilo P. Mandic, Toshihisa Tanaka, Tomasz M. Rutkowski, and Rubin Wang, An Auditory Oddball Based Brain-Computer Interface System Using Multivariate EMD, Lecture Notes in Artificial Intelligence, Vol. 6216, pp. 140-148, (2010) 

  34. Qiwei Shi, Jianting Cao, Wei Zhou, Rubin Wang, Dynamic extension of approximate entropy measure for brain-death EEG, Lecture Notes in Computer Science, Vol.6064, pp.353-359 (2010)

  35. Qiwei Shi, Wei Zhou, Jianting Cao, Rubin Wang., Brain Computer interface system using approximate entropy and EMD techniques, Lecture Notes in Computer Science, Vol.6146, 204-212 (2010)

  36. Rubin Wang, Zhikng Zhang, Guanrong Chen, Energy coding and energy functions for local activities of brain. Neurocomputing 73(1-3),139-150 (2010)
  37. Rubin Wang, Zhikang Zhang, Chi K.Tee. Neurodynamics analysis on transmission of brain information.Applied Mathematics and Mechanics Vol.30, No.11, 1415-1428 (2009)
  38. Xianfa Jiao, Rubin Wang, Synchronous Firing Patterns of Neuronal Population with Excitatory and Inhibitory Connections. International Journal of Nonlinear Mechanics.45:647-651 (2009)
  39. Rubin Wang, Zhikng Zhang, Guanrong Chen, Energy function and energy evolution on neural population. IEEE Transactions on Neural Networks (2008)Vol. 19, Issue 3, 535-538 (2008)
  40. Rubin Wang, Zhikang Zhang, Energy coding in biological neural network, Cognitive Neurodynamics, Vol.1, No.3, 203-212 (2007)
  41. Rubin Wang, Fanji Gu, Editional. Cognitive Neurodynamics, Vol.1, No.1, 1-2 (2007)
  42. Rubin Wang, Neuro-electrophysiological argument on energy coding. Lecture Notes in Computer Science. 4491, 1127-1134. (2007)
  43. Rubin Wang et al., Phase coding on the large-scaled neuronal population subjected to stimuli. Lecture Notes in Computer Science. 3610, 228-236 (2006)
  44. Rubin Wang, Zhikang Zhang, Mechanism on brain information processing: energy coding. Applied Physical Letters, 2006, 89:123903.
  45. Rubin Wang et al, A Stochastic Nonlinear Evolution Model and Neural Coding on Neuronal Population Possessing variable coupling Intensity in Spontaneous Behavior. Neurocomputing. Vol. 69, No.7-9, 778-785 (2006)
  46. Xianfa Jiao, Rubin Wang., Synchronization in Neuronal Population with the Variable Coupling Strength in the Presence of External Stimulus. Applied Physical Letters. 88, 203901. (2006)
  47. Xianfa Jiao, Rubin Wang., Nonlinear dynamic model and neural coding of neuronal network with the variable coupling strength in the presence of external stimuli. Applied Physical Letters. 87:083901 (2005)
  48. Rubin Wang et al., A stochastic nonlinear evolution model and dynamic neural coding on spontaneous behavior of large-scale neuronal population Advances in Natural Computation. Lecture Notes in Computer Science. 3610, 490-498 (2005)
  49. Rubin Wang, Hatsuo Hayashi, Zhikang Zhang., Nonlinear stochastic models of neurons activities. Neurocomputing. Vol. 51, 401-411.(2003)
  50. Rubin Wang et al.; An exploration of dynamics on moving mechanism of the growth cone”. Molecules. 8, 127-138. (2003)
  51. Rubin Wang., An evolution model on the set of the populations of neurons. Int. J. Nonlinear Science and Numerical Simulation. Vol.4, No.3, 203-208. (2003)
  52. Rubin Wang et al., Some advance of nonlinear stochastic evolution models in phase resetting dynamics on populations of neuronal oscillators. Int. J. Nonlinear Science and Numerical Simulation. Vol.4, No.4, 435-446. (2003)
  53. 屈景怡,王如彬.关于视觉注意力选择的神经编码.动力学与控制学报.Vol.10, No.3, 234-238Sep.2012
  54. 王如彬,张志康.基于信息编码的神经能量计算. 力学学报. Vol.44, No.4, 779-786, July 2012

  55. 郑锦超,王如彬.神经能量与神经信息之间内在动力学关系初探. 力学学报.Vol.44,No.5,919-927, Sep.2012

  56. 王如彬,周轶,张志康.具有延时作用的基底膜主动耦合模型. 振动与冲击. Vol.30, No.12.  49-53 (2011)

  57. 杨琨,曹建庭,王如彬.拟似脑死患者脑电信号的动态近似分析. 中国生物医学工程学报. Vol. 30, No.1, 27-33 (2011)

  58. 章晓丹,王如彬,张志康,焦贤发.高阶耦合条件下神经振子群活动的随机演化模型.振动与冲击 29(141):1-5,(2010)
  59. 刘艳,王如彬,张志康. 抑制性神经元作用下相位神经编码的神经动力学分析.振动与冲击. 29 (12): 1-7,17 (2010)
  60. 王如彬,张志康, 耦合条件下大脑皮层神经振子群的能量函数. 力学学报. Vol. 40, No.2, 238-249. (2008)
  61. 王如彬,张志康,沈恩华., 大脑皮层内神经元集团的能量演变.动力学与控制学报.Vol.6, No.1, 55-60. (2008)
  62. 王如彬,张志康,多个神经振子群网络的相位动力学编码. 动力学与控制学报.Vol.7, No.3, 217-225(2009)
  63. 王如彬, 俞伟, 刺激作用下大规模神经元群的随机非线性演化模型及动态神经编码. 生物医学工程学学报. 23(2), 243-247.(2006)
  64. 王如彬,张志康,关于耦合神经元活动时的能量原理. 生物物理学报. Vol.21, No.6, 436-442.(2005)
  65. 焦贤发,王如彬,刺激作用下可变耦合神经振子群的非线性随机演化模型. 控制与决策. Vol.20, No.8, 897-900.(2005)
  66. 王如彬,焦贤发,非线性随机动力学在脑信息处理与神经动力学研究中的应用综述. 复旦神经生物学讲座. No.307, 193-206. (2004)

   Proceedings

 

    1.  Rubin Wang,Fanji Gu, Advances in Cognitive Neurodynamics.  Springer. 2008

    2.  Rubin Wang,Fanji Gu, Enhua Shen, Advances in Cognitive Neurodynamics (Ⅱ). Springer.  2011

  1. Chuankui Yan, Rubin Wang, Non-identical Neural Network Synchronization Study Based on an Adaptive

    Learning Rule of Synapses. Chinese Physics Letter. 29(9). 090501, 2012.

  2. Chuankui Yan, Rubin Wang, Asymmetric neural network synchronization and dynamics based on an adaptive learning rule of synapses. Neurocomputing. (accepted) 2012

  3. Chuankui Yan, Rubin Wang, Xiaochuan Pan. A model of hippocampal memory based on an adaptive learning  rule of synapses. Journal of Biological Systems. (Submitted) (2012)

  4. Qu JY, Wang RB, Du Y. Synchronization study in ring-like and grid-like neuronal networks. Cognitive Neurodyanmics, 6(1):21-31,2012

  5. Qu JY, Wang RB. Dynamics of cortical neural networks based on a simple model. Chinese Physics Letters, 29(8):080503, 2012

  6. Qu JY, JiaYF, Du Y. A Medical image fusion method based on visual models. Lecture Notes in Computer Science

    2012, 7368: 257-265 (EI)

  7. Lina Liang, Rubin Wang, The Effect of Dopamine on Working Memory. Neural Processing Letters. Vol. 35, No. 3 (2012), Page 257-263

  8. Qu JY, Wang RB, Zhang Y, Du Y. A neurodynamical model for selective visual attention. Chinese Physics Letters

    2011, 28(10):100502. 

  9. Qu JY, Wang RB, Du Y. An improved selective attention model considering orientation preferences. 

    Neural Computing and Application, 2011. (in press) 

  10. Lina Liang,Rubin Wang, Zhikang Zhang. The modeling and simulation of visuospatial working memory. Cognitive Neurodynamics. 4:359-366 (2010)
  11. 王楠, 基于theta相位编码的空间记忆和提取模型. 华东理工大学优秀本科毕业论文. 2009
  12. Enhua Shen, Rubin Wang, Zhikang Zhang, Spiking neuron model with Theta phase procession enhancing memory of place sequence in single trial learning.Journal of Dynamics and Control.Vol.7,No.2:183-187(2009)
  13. 梁丽娜, 动态突触与联想记忆研究. 华东理工大学本科毕业论文. 2008
  14. Enhua Shen, Rubin Wang, A spiking neuron model of theta phase precession. Lecture Notes in Computer Science. 4221, 214-223 (2006)
  15. 王如彬,张志康,俞婧,关于注意与记忆的神经动力学机制.力学学报. Vol.38 No.6,816-824 (2006)
  16. Cao Yang, Cai Zhijie, Shen Enhua, Shen Wei, Chen Xin, Gu Fanji,Shou Tiande. (2007) Quantitative Analysis of Brain Optical Images with 2D C0 Complexity Measure. Journal of Neuroscience Methods, 159(1): 181- 186.
  17. Enhua Shen, Fanji Gu & Zhijie Cai, C0 – A Randomness Finding Complexity Measure. Journal of Applied Mathematics and Mechanics Engineering, Vol. 26, No. 9 (2005) 1188-1196.
  18. Fanji Gu, Enhua Shen, Xin Meng, Yang Cao & Zhijie Cai, Complexity, Scale and High Order Complexity of Time Series. International Journal of Bifurcation and Chaos, Vol. 14, No.8(2004): 2979-2990.
  19. Fanji Gu, Xin Meng, Enhua Shen & Zhijie Cai, (2002). Can We Measure Consciouseness with EEG Complexities. International Journal of Bifurcation and Chaos,Vol. 13, No.3(2003) 733-742.
  20. 沈恩华,章惠民,顾凡及. 蛙下丘听觉神经原对双耳强度差检测功能的建模和仿真. 生物物理学报,2000,16:517-522
  21. 孟欣, 沈恩华, 陈芳, 顾凡及, 脑电图复杂度分析中的粗粒化问题I. 过分粗粒化和三种复杂度的比较量化对复杂度计算的影响. 生物物理学报,2000, 16:701-706
  22. 沈恩华, 邱志诚, 孟欣, 顾凡及. 脑电图复杂度分析中的粗粒化问题II. 量化对复杂度计算的影响. 生物物理学报, 2000, 16:707-710

  1. Chunjiang Fu, Rubin Wang. Upper level optimal control module adapts to the external VF field during reaching movement.Chinese Journal of Biomedical Engineering 29(4): 545-550(2010)
  2. Wei Dong, Rubin Wang. Explore the characteristics of rhythmic gait movement about creature. Chinese quarterly of mechanics2010,31(2).43-50
  3. Wei Dong, Rubin Wang. Discussion on human rhythmic gait movement in the role of ceretex signal. Chinese Journal of Biomedical Engineering2010, Vol29, No.2,247-252
  4. Jiong Wu, Rubin Wang. Period motion control of human arm movement based on CPG model. Journal of Dynamics and Control Vol.8, No.2, 151-154, Jun.2010
  5. Chunjiang Fu, Rubin Wang. On the human arm impedance control Chinese quarterly of mechanics2010,31(1):37-45
  6. Yang Lu., Cerebellar stablization computing. Undergraduate paper of East China University and Science and Technology. 2009
  7. Chunjiang Fu, Rubin Wang.The contribution of co-contraction to arm impedance in the free planar movement.Journal of Medical Biomechanics . 2009,24(6):427-433
  8. Wei Dong, Rubin Wang, Enhua Shen, Zhikang Zhang., The simulation study on the pattern of muscles controlled by CPG in rhythm gait movement,Journal of Dynamics and Control.2008, Vol6 No.4:327-331
  9. Jianpeng Zhang, Rubin Wang, Enhua Shen, Zhikang Zhang.,An exploration of dynamics on neural control mechanism of insect locomotion. ,Journal of Dynamics and Control.2009, Vol7 No.1:29-34
  10. Jianpeng Zhang, Rubin Wang.Modeling and dynamic analyses of insect locomotion based on passive dynamics.Chinese quarterly of mechanics. 2009, Vol30 No.1:39-41
  11. Jiong Wu, Rubin Wang et al., A new algorithm in the trajectory-calculating of human arm movement. Journal of Vibration and Shock. 2008, Vol27 No.9:147-149
  12. Chuanjiang Fu., Research of impedance control on human arm. Undergraduate excellent paper of East China University and Science and Technology. 2008

  1. Hu Yujie, Hu Jiyong, Zhao Qun, Ding Xin, Yang Xudong. Relationship between tactual roughness judgment and surface morphology of fabric by fingertip touching method, Fibers and Polymers, Accepted.

  2. Hu Jiyong, Yang Xudong, Ding Xin, Probability of prickliness detection in a model of populations of fiber  ends prickling human skin. Fibers and Polymers, 2012, 13(1): 79-86

  3. Hu Jiyong, Li Yi, Ding Xin, Hu Junyan. The mechanics of buckling fiber in relation to fabric-evoked prickliness-a theory model of single fiber prickling human skin. Journal of Textile Institute,2011,102(12): 1003-1018

  4. Hu Jiyong, Li Yi, Ding Xin, et al. Neuromechanical representation of fabric-evoked prickliness: a fiber-skin-neuron model. Cognitive Neurodynamics, 2011, 5(2): 161-170
  5. Hu Jiyong, Li Yi, Hu Junyan. Neuromechanical representation of fabric-evoked prickle spatial and probability integration. Fibers and Polymers, 2010,11(5):790-797 
  6. Hu Jiyong, Zeng Xianyi, Ding Xin. Effect of Instantaneous Compressive Responses of Fabric on Tactile Textures, Indian Journal of Fibre & Textile Research, 2009, 34(2): 274-287
  7. Hu Jiyong, Ding Xin, Wang Rubin, Cai Cencen. Intrinsic differences of sensory analysis from instrumental evaluation on fabric softness by lateral compression. Fibers and Polymers,2009, 10(3):371-378
  8. Hu Jiyong, Ding Xin, Yang Xudong, Wang Rubin. Physiological principle of tactile discriminability of fabric softness by touching method. Jounal of Fiber Bioengineering and Informatics, 2008,1(2): 19-26
  9. Hu Jiyong, Ding Xin, Wang Rubin. Biomechanical Mechanism of Fabric Softness Discrimination. Fibers and Polymers, 2007, 8(4):372-376
  10. Hu Jiyong, Ding Xin, Wang Rubin. Dependence of Tactile Sensation on Deformations Within Soft Tissues of Fingertip. World Journal of Modeling and Simulation, 2007, 3(1): 73-78
  11. Hu Jiyong, Ding Xin, Wang Rubin. Dependence of Softness on Fabric Surface Quality and Compressibility. Journal of Donghua University (Eng. Eds), 2006, 23(5): 59-63
  12. 何聪艳, 胡吉永, 丁辛. 不同感觉模态下评价织物柔软感的心理物理特性. 东华大学学报, 2012, 38(4): 16-20
  13. 胡吉永, 丁辛, 王如彬, 杨旭东. 单纤维刺扎人体皮肤的弯曲力学行为分析. 动力学与控制学报, 2012, 10(2): 162-167
  14. 潘登, 胡吉永, 丁辛. 基于频谱分析的织物粗糙感研究. 东华大学学报(自然科学版), 2012, 38(1): 6-11

  15. 蔡岑岑, 胡吉永, 丁辛. 感知模式对织物柔软性评价结果的影响. 东华大学学报(自然科学版), 2012, 38(1): 26-31

  16. 胡吉永,丁辛,王如彬,杨绪东. 触摸法评价物体柔软性的感知觉力学原理分析. 力学学报, 2009, 41(5): 761-768 

  17. 林伟, 胡吉永, 丁辛. 基于内隐记忆的织物触觉质感属性空间的确定. 纺织学报, 2009, 30(4): 58-62
  18. 胡吉永,丁辛,王如彬. 织物手感的认知原理及其研究. 东华大学学报(自然科学版), 2007, 33(5): 677-681, 686

  1. Zhao YX, Li WH, Zeng J, Liu GX, Tang Y*. Insights into the interactions between HIV-1 integrase and human LEDGF/p75 by molecular dynamics simulation and free energy calculation. Proteins, published online Feb. 4, 2008.
  2. Zeng J, Li WH, Zhao YX, Liu GX*, Tang Y*, Jiang HL. Insights into ligand selectivity in estrogen receptor isoforms: molecular dynamics simulations and binding free energy calculations. J. Phys. Chem. B published online Feb. 12, 2008.
  3. Li WH, Tang Y*, Liu H, Cheng JG, Zhu WL, Jiang HL. Probing ligand binding modes of human cytochrome P450 2J2 by homology modeling, molecular dynamics simulation, and flexible molecular docking. Proteins, published online Nov. 14, 2007.
  4. Du L, Shen LL, Yu ZG, Chen J, Guo YW*, Tang Y*, Shen X*, Jiang HL. Hyrtiosal, from the marine sponge Hyrtios erectus, inhibits HIV-1 integrase binding to viral DNA by a new inhibitor binding site. Chem Med Chem. 2008; 3(1): 173-180.
  5. Zu L, Li H, Xie H, Wang J, Jiang W, Tang Y*, Wang W*. Synthesis of highly functionalized chiral cyclopentanes by catalytic enantio- and diastereoselective double Michael addition reactions. Angew. Chem. Int. Ed. 2007; 46(20): 3732-3734.
  6. Tang Y, Zhu WL, Chen KX, Jiang HL*. New technologies of computer-aided drug design: towards target identification and new chemical entity discovery. Drug Disc. Today: Technologies 2006; 3(3):307-313.
  7. Li W, Tang Y*, Zheng YL, Qiu ZB*. Molecular modeling and 3D-QSAR studies of indolomorphinan derivatives as kappa opioid antagonists. Bioorg. Med. Chem. 2006; 14(3): 601-610.
  8. Karki RG#, Tang Y#, Burke TR Jr, Nicklaus MC. Model of full-length HIV-1 integrase complexed with viral DNA as template for anti-HIV drug design. J. Comput.-Aided Mol. Design 2004; 18(12): 739-760. (#Co-first author)
  9. Pais GCG, Zhang XC, Marchand C, Neamati N, Cowansage K, Svarovskaia ES, Pathak VK, Tang Y, Nicklaus MC, Pommier Y, Burke, Jr. TR. Structure activity of 3-aryl-1,3-diketo-containing compounds as HIV-1 integrase inhibitors. J. Med. Chem. 2002; 45(15): 3184-3194.
  10. Tang Y, Nilsson L. Molecular dynamics simulations of the complex between human U1A protein and hairpin II of U1 small nuclear RNA and of free RNA in solution. Biophys. J. 1999; 77: 1284-1305.
  11. Tang Y, Nilsson L. Effect of G40R mutation on the binding of human SRY protein to DNA: a molecular dynamics view. Proteins 1999; 35: 101-113.
  12. Tang Y, Nilsson L. Interaction of human SRY protein with DNA: a molecular dynamics study. Proteins 1998; 31: 417-433.
  13. Tang Y, Chen KX, Jiang HL, Ji RY. QSAR/QSTR of fluoroquinolones: an example of simultaneous analysis of multiple biological activities using neural network method. Eur. J. Med. Chem. 1998; 33: 647-658.
  14. Jiang HL, Chen KX, Tang Y, Chen JZ, Li Q, Wang QM, Ji RY. Molecular modeling and 3D-QSAR studies on the interaction mechanism of tripeptidyl thrombin inhibitors with human alpha-thrombin. J. Med. Chem. 1997; 40: 3085-3090.
  15. Tang Y, Jiang HL, Chen KX, Ji RY. QSAR study of artemisinin (qinghaosu) derivatives using neural network method. Ind. J. Chem. (Sect. B) 1996; 35: 325-332.
  16. Tang Y, Chen KX, Jiang HL, Wang ZX, Ji RY, Chi ZQ. Molecular modeling of rat m-opioid receptor and its interaction with ohmefentanyl. Acta Pharmacol. Sin. 1996; 17: 156-160.
  17. Tang Y, Chen KX, Jiang HL, Jin GZ, Ji RY. Molecular modeling of interactions between tetrahydro-protoberberines and dopamine receptors. Acta Pharmacol. Sin. 1996; 17: 8-12.
  18. Tang Y, Wang HW, Chen KX, Ji RY. QSAR of 3-methylfentanyl derivatives studied with neural networks method. Acta Pharmacol. Sin. 1995; 16: 26-32.

  1. Huang, Z.Y., He, Y., Cui, X.Y. Yu, G. F. and Liu, H. S., 1994, “Vortex tube and flow-rate characteristic”, Journal of Dalian University of Technology, vol. 34, No. 1, pp. 50-53.
  2. He, Y., Shoji, M., and Maruyama, S., “Numerical study of high heat flux pool boiling heat transfer”, International Journal of Heat and Mass Transfer, vol.44(2001), No. 12, pp.2357-2373. (SCI,EI)
  3. He, Y., Shirazaki, M., and Himeno, R., “Two dimensional FEM model to investigate the effect of distal blood flow on the human finger”, Thermal Science and Engineering, Vol. 10(2002), No. 3, pp.19-24. (JST)
  4. He, Y., Liu, H., Himeno, R., and Shirazaki, Numerical and Experimental Study on the Relationship between Blood Circulation and Peripheral Temperature, Journal of Mechanics in Medicine and Biology, Vol. 5 , No. 1 (2005),pp.39-53.(CSA)
  5. He, Y., Liu, H., Himeno, R., and Shirazaki, M., Numerical and Experimental Study of the Effect of Blood Circulation on the Human Finger Temperature, Transaction of JSME (B) (Japanese), Vol. 71(2005), No.702, pp.641-648. (EI)
  6. He, Y., Shirazaki, M., Liu, H., Himeno, R., and Sun, Z. G., A Numerical Coupling Model to Analyze the Blood Flow, Temperature and Oxygen Transport in the Human Breast Tumor under Laser Irradiation, Computers in Medicine and Biology, Vol. 36 (2006), Issue 12, Pages 1336-1350. (SCI)
  7. He, Y., Liu, H., Himeno, R., Sunaga, J. , Kakusho, N. Yokota, H., Finite Element Analysis of Blood Flow and Heat transfer in An Image-based Human Finger, submitted to Computers in Medicine and Biology, 2008. (SCI)
  8. He, Y., Himeno, R. Liu, H., Yokota, H., and Sun, Z. G., 2007, A Finite Element Numerical Analysis of Blood Flow and Temperature Distribution in An Three-dimensional Image-based Finger Model, Mini-symposium: Computational methods for heat and fluid flow, the 14th International Conference on Finite Elements in Flow Problems to be held in Santa Fe, New Mexico on March 26-28, 2007 (Will be included in the special issue of International Journal of Numerical Methods for Heat & Fluid Flow (SCI))

  1. Rubin Wang et al; Random averaging Analysis of the finite-Damping Nonlinear Vibration System under Random Disturbances. Journal of European Mechanics. A/Solids. 21, pp1083-1088. (2002)
  2. Rubin Wang et al; A technique note of exact stationary solutions on nonlinear systems under stochastic parametric excitations. Journal of Forschung im Ingenieurwesen / Engineering Research. 66, pp241-246. (2001)
  3. Rubin Wang et al; Exact stationary solutions of the Fokker-Planck equation for nonlinear oscillators under stochastic parametric and external excitations”. Nonlinearity. Vol.13, pp907-920.(2000)
  4. Rubin Wang et al; A proposal of testing method on the exact steady State Probability density function of nonlinear stochastic system.” Journal of Sound and Vibration. 230(5), 1165-1176. (2000 00)
  5. Rubin Wang et al; Exact probability density of SDOF Nonlinear Stochastic oscillators. C.R. Acad.Sci.Paris,Serie b. Acoustique, ondes, Vibrations/Acoustics, Waves Vibrations. 328, pp349-357.(2000)
  6. Rubin Wang et al; An generalized analysis technique of the Stationary FPK equation in nonlinear stochastic systems. International Journal of Engineering Science. Vol. 38/12. pp1315-1330.(2000)
  7. Rubin Wang et al; On joint stationary probability density function of nonlinear dynamic systems. Acta Mechanica. Springer-Verlag. 130, 29-39.(1998)
  8. Rubin Wang et al; Exact stationary response solutions of six classes of nonlinear stochastic systems under stochastic parametric and external excitations. Transactions of the ASCE.Journal of Engineering Mechanics. Vol. 124. No.1, pp18-23.(1998)
  9. Rubin Wang et al; Exact stationary probability density for second-order nonlinear systems under external white noise excitation. Journal of Sound and Vibration. ACADEMIC PRESS. 205(5), pp647-655, (1997)
  10. Rubin Wang et al; Stationary probability density of a class of non-linear dynamic systems to stochastic excitation. Forschung im Ingenieurwesen. Vol.63, No.5. pp158-160. (1997)
  11. Rubin Wang et al; Asymptotic solution of a class of nonlinear onautonomous systems with large damping under multiple external periodic forces. Journal of Sound and Vibration. Vol.190, No.4. pp611-627.(1996)
  12. Rubin Wang et al; Exact stationary response solutions of nonlinear dynamic systems. Archive of Applied Mechanics. Vol.66, pp255-263.(1996)
  13. Rubin Wang et al; A new equivalent non-linearization technique. Probabilistic Engineering Mechanics. Vol.11, pp129-137.(1996)
  14. Rubin Wang et al; Response of a non-linear system with strong damping to multifrequency excitations. Archive of Applied Mechanics. Vol.66, pp343-356. (1996)
  15. Rubin Wang; The chaos in nonlinear systems. Journal of Chaos. No.2 , pp26. Kyushu Sangyo University.(1995)
  16. Rubin Wang et al; An equivalent polynomial approximation technique in non-linear structural dynamics. Archive of Applied Mechanics. Vol. 65, pp457-464.(1995)
  17. Rubin Wang; Random process analysis in mechanism kinematics and model of precision ineffectiveness. Journal of Robot. Vol.13, No.3. pp19-26.(1991)
  18. Rubin Wang et al; The asymptotic solution of the nonlinear nonautonous vibration systems under situation of the finite large damping. Journal of Vibration and Shock. Vol.9, No.1. pp48-65 (1990).
  19. Yun-Bo Duan, Shuping Yuan, Rubin Wang, I. Mukhopadhyay, Torsion and CO-stretching vibration interactions in methanol. Chemical Physics. 330 (2006) 9-15
  20. Li Wang, Yun-Bo Duan, Rubin Wang, Determination of reduced Hamiltonian parameters for the CD3OH isotopomers of methanol, Chemical Physics, Vol.292, No.1, pp23-29. (2003)
  21. Yun-Bo Duan, Rubin Wang, Quantum dynamics of methanol: Hamiltonian, representation and intensity considerations. Chemical Physics, Vol.280, No.1-2, 119-134. (2002)
  22. Rubin Wang et al; The response analysis of a class of vibration system under stationary Gauss excitation. Journal of Vibration and Shock. Vol.8, No.1. pp66 -72. (1989)

    Exellent Graduates' Papers of ECUST

  1. Jiong Wu--Neurodynamics Mechanisms and Computation of Human Arm Movement 2010
  2. Yan Liu--Analysis of Neurodynamics on Phase Neural Coding in the Presence of Inhibitory Neurons 2011
  3. Xiaodan Zhang--Stochastic Dynamic Simulation of Neuronal Oscillator Population under the Condition of the Higher Order Coupling 2012
  4. Lina Liang--The Modeling and Simulation of Visuospatial Working Memory 2013

    Exellent Undergraduates' Papers of ECUST    

  1. Chunjiang Fu--关于人体手臂运动的阻抗控制研究,School of Information Science and Engineering, 2008
  2. Nan Wang--基于theta相位编码的空间记忆和提取模型, School of Information Science and Engineering, 2009
  3. Xuying Xu--Synaptic Dynamics on Learning and Memory, School of Science, 2009

  4. Yating Zhu--The Role of Phase Synchronization in Visual Information Processing, School of Science,2011

  5. Qing Zhu--A Model of Cognitive Map Based on Mental Exploration, School of Information Science and Engineering, 2012 

  6. Ziyin Wang-- The Probe to Neural Energy Coding and The Neurodynamical Analysis, School of Information Science and Engineering, 2013