教育背景与学术经历【教育背景】
1992.9-1995.7,中国原子能科学研究院,核物理所,核理论专业,原子核大振幅运动输运理论研究DNA分子热融化,博士研究生毕业,获理学博士学位;
1989.9-1992.7,四川大学(原成都科学技术大学),应用物理系,理论物理专业,晶体掺杂过渡金属能谱及其压力移位,硕士研究生毕业,获理学硕士学位;
1985.9-1989.7 河北师范大学物理系,大学本科毕业,获理学学士学位;
教研项目及成果
【研究方向】
长期从事复杂系统理论研究。在国内外有重要影响的学术刊物发表论文100余篇,引用次数超1800次,单篇引用超200次。围绕结构与动力学关系,研究工作主要包括,
1、DNA分子热融化。溶液中的DNA分子,在一个很窄的温度范围内双螺旋结构解链,是PCR扩增的工作基础,也能提供关于DNA复制的动力学过程信息。采用核大振幅输运理论,把大分子动力学演化转化为抽样过程,解决了多粒子耦合体系Langevin方程的求解问题 (见J. Phys. A 27, 6147(1995));
2、时间序列分析最后一公里问题。传统序列分析基于统计假设,只有在序列足够长时能成立,在应用于生物、生理及金融等现实中短序列时,规律往往被掩盖在噪声中。在高能碰撞实验分析中,需要从有限的事例中把量子色动力学(QCD)信息提取出来,有效减小噪声影响,为此发展了阶乘矩理论。利用序列分析相空间重构技术,成功地把阶乘矩理论拓展到短序列片断特征提取,对序列自相似结构统计分析方法进行了有效修正。相关工作发表在J Theor Biol, 241,765(2006);246,28(2007); 247,645(2007), Phys Rev E 84,066114(2011); 86,056107(2012); PLOS ONE 9(12)116128(2014); 10(11):e143015(2015), Phys LettA 378,2591-2596(2014)等。
3、复杂网络谱结构与动力学性质。复杂系统诸元素及其关系可以用复杂网络描述。节点和边分别表示元素和关系。把复杂网络节点和边映射为原子和原子之间的作用,采用休克(Huckel)模型, 复杂网络拓扑结构矩阵可以做原子团的哈密顿(Hamiltonian)处理。这一原子团的谱结构能反映出内部结构对称性。本部分工作试图分析网络谱结构特征,建立复杂网络(谱)结构与动力学关系。由于网络结构的复杂性,谱结构的对称性质不能采用群论等传统理论工具研究。首次提出把能谱看作时间序列,采用时间序列分析方法,发现复杂网络中普遍存在长程关联与自相似结构;首次从网络体系运动形成的弹性波出发,采用量子与经典对应及核能谱分析中发展起来的随机矩阵理论(Random MatrixTheory),提出了一个新的判定复杂网络同步能力的指标,给出了复杂网络结构增强同步能力的一个物理机制(也就是通过混沌过程达到同步)。相关工作发表在Phys. Rev. E 69,066104 (2004); 72, 046119 (2005); 77,045101(R)(2008); 77,066113 (2008), CHAOS 16, 043112 (2006), New J. Phys. 10,023006(2008); 12,023016 (2010), EPJB 85, 106 (2012), PLOS ONE 10(8): e128251(2015),Physica A 364,544(2006)等。
4、基于复杂网络的时间序列分析,提出基于相空间重构的把序列映射为复杂网络的方法,提出基于小图的时间序列相关性结构分析方法;系统生物学相关问题,包括DNA序列分析,复杂疾病生物标志物和复杂疾病药物作用机理等;基于人工智能的规律发现和复杂系统预测等.
【科研项目】
承担完成自然科学基金面上项目2项,参与国家自然科学基金面上和重大项目、科技部973项目等多项。
1、基于复杂网络谱的细胞网络比较, 国家自然科学基金面上项目;
2、系统分析与集成科研平台建设, 中央财政支持地方高校建设资金项目;
3、上海市高教系统****(****)资金支持计划;
4、复杂调控网络动力学结构分析与模型构造, 国家自然科学基金面上项目;
5、在轨服务反步控制算法研究(企业横向课题)
【主要论文列表】
[100]Synchronizationof reservoir computers with applications to communications,
TongfengWeng, Jia Song, Huijie Yang, Changgui Gu, Jie Zhang and Michael Small,
PhysicaA 544, 123453 (2020).
[099]Visibility graph analysis of Bitcoin priceseries,
Keshi Liu, Tongfeng Weng, Changgui Gu and Huijie Yang,
Physica A 538, 122952(2020).
[098]Excited state ofspiral waves in oscillatory reaction-diffusion systems caused by a pulse,
Jian Gao, Changgui Gu ,HuijieYang and Tongfeng Weng,
Phys. Rev. E 101,042219 (2020).
[097] A universal state equation of particle gases forpassenger flights in United States,
Pei-Wen Yao, Yan-Jun Wang, Chen-Ping Zhu, Fan Wu,Ming-Hua Hu, Hui-Jie Yang, Vu Duong, Chin-Kun Hu and H. Eugene Stanley,
Physica A 545, 123748 (2020).
[096]A type of bi-stable spiral wave in a single-period oscillatory medium,
Gao,Jian;Gu, Changgui*; Yang, Huijie; Weng, tongfeng;
CommunNonlinear Sci Numer Simulat,2020,85: 105233.
[095]Visibility graph analysis of Bitcoin price series,
Keshi Liu, Tongfeng Weng, Changgui Gu andHuijie Yang,
Physica A 538, 122952 (2020).
[094]Synchronization of chaotic systems and their machine-learning models,
Tongfeng Weng, Huijie Yang, Changgui Gu, JieZhang and Machael Small,
Phys. Rev. E 99,042203(2019).
[093]Traffic systems recovery from complete congestion by the targeted dropping ofpackets,
Gan-Hua Wu and Hui-Jie Yang,
Modern Physics Letters B|Vol. 33,No. 08, ** (2019) .
[092]Evolution of scaling behavors in currency exchange rate series,
Wenxiu Feng, Yue Yang, Qianshun Yuan, ChangguiGu and Huijie Yang,
Fractals27(2): ** (2019).
[091]Relaxation of gene network after injection of influenza virus,
Shiguo Deng, Henggang Ren, Qianshun Yuan andHuijie Yang,
J. Phys. Conf. 1302(4): 042016 (2019).
[090]Sampling frequency dependent visibility graphlet approach to time series,
Yan Wang, Tongfeng Weng, Shiguo Deng,Changgui Gu and Huijie Yang,
Chaos 29, 023109 (2019).
[089]Information on evolutionary age in redundancy of complex network,
Shiguo Deng, Henggang Ren, Tongfeng Weng,Changgui Gu and Huijie Yang,
Modern Physics Letters B 33(27), **(2019).
[088]Scale-Invariance Exists in the Series of Character Intervals in the Four GreatChinese Novels,
Quan-Chao Gu, Gui-Qiu Qin,Yi-Qing Wang), Chang-Gui Gu and Hui-Jie Yang,
Commun.Theor. Phys. 71, 1139 (2019).
[087]Heterogeneity in relaxation rate improves the synchronization of oscillatoryneurons in a model of the SCN,
ChangguiGu, Huijie Yang, Man Wang and Jos H. T. Rohling,
Chaos29, 013103 (2019).
[086]Size of a steady disturbance source affects the frequency of a target wave,
Jian Gao, Changgui Gu, Huijie Yang, andTongfeng Weng,
AIP Advances 9, 085034 (2019).
[085]Entrainment range affected by the heterogeneity in the amplitude relaxationrate of suprachiasmatic nucleus neurons
Chang-GuiGu(顾长贵),Ping Wang(王萍),Hui-Jie Yang(杨会杰) ,
Chin.Phys. B. 28(1): 018701 (2019).
[084]Heterogeneity of neuronal properties determines the collective behavior of theneurons in the suprachiasmatic nucleus,
GuChanggui, Wang Ping, Weng Tongfeng, Yang Huijie and Jos Rohling,
MathBiosci Eng. 16(4), 1893-1913 (2019).
[083]Splitting between two subgroups of the SCN neurons with instantaneous feedback
ChangguiGu, Xiangwei Gu, Henggang Ren, Ping Wang, Huijie Yang and Jos H. T. Rohling,
NonlinearDynamics 97, 1245-1251 (2019).
[082]Heterogeneity in relaxation rate improves the synchronization of oscillatoryneurons in a model of the SCN,
ChangguiGu, Huijie Yang, Man Wang and Jos Rohling,
Chaos29, 013103 (2019).
[081]Entrainment range affected by the heterogeneity in the amplitude relaxationrate of SCN neurons,
Chang-Gui Gu, Ping Wang andHui-Jie Yang,
Chin. Phys. B,28 (1): 018701(2019).
[080]Predator-prey games on complex networks,
Tongfeng Weng, Huijie Yang, Changgui Gu, JieZhang, Pan Hui, Michael Small,
Commun. Nonlinear Sci. Num. Sim. 79, 104911(2019).
[079]Synchronizing hyperchaotic subsystems with a single variable: A reservoircomputing approach,
XiaoluChen, Tongfeng Weng, Changgui Gu and Huijie Yang,
PhysicaA 534(15), 122273 (2019).
[078]Synchronization of chaotic systems and their machine learning models,
Tongfeng Weng, Huijie Yang, Changgui Gu, JieZhang and Michael Small,
Phys.Rev. E 99, 042203 (2019).
[077]Limit Cycles and Invariant Curves in a Class of Switching Systems with DegreeFour,
XinliLi, Huijie Yang and Binghong Wang,
Journalof function spaces 2018: ** (2018) [9pages]
[076]Efficient priority queueing routing strategy on networks of mobile agents,
Gan-HuaWu, Hui-Jie Yang and Jia-Hui Pan,
ModernPhysics Letters B 32(09), ** (2018) .
[075]Ratio between sensitive strength to light information and the coupling strengthaffects entrainment range of suprachiasmatic nucleus,
ChangguiGu*, Huijie Yang, Man Wang*,
Commun.Theor. Phys. (2018) 70, 771–776.
[074]Community detection based on preferred mode in bipartite networks,
GuolinWu, Changgui Gu*; Qiu Lu and HuijieYang,
ModernPhysics Letters B ** (2018) .
[073]A patient suffering from neurodegenerative disease may have a strengthenedfractal gait rhythm,
HenggangRen, Yue Yang, Changgui Gu, Tongfeng Weng, Huijie Yang*,
IEEETrans. Neural Syst. Rehab Engineering 26 (9) (2018) 1765-1772
[072]Double transition of information spreading in a two-layered network,
JiaoWu, Muhua Zheng, Wei Wang, Huijie Yang, and Changgui Gu*,
Chaos28, 083117 (2018).
[071]Influential promotes cooperation in spatial games,
Wen-JingLi , Luo-Luo Jiang, Changgui Gu*, and Huijie Yang,
J.Stat. Mech. (2018) 063406 .
[070]Dependence of the entrainment on the ratio of amplitudes between two subgroupsin the suprachiasmatic nucleus,
Changgui Gu*,Huijie Yang, JohannaH. Meijer, and Jos H. T. Rohling,
Phy. Rev. E (2018) 97, 062215
[069]Immediate causality network of stock markets,
LiZhou, Lu Qiu, Changgui Gu and Huijie Yang,
EPL,121 (2018) 48002
[068]Unbiased detrended fluctuation analysis: Long-range correlations in very shorttime series,
Qianshun Yuan, Changgui Gu,Tongfeng Weng, Huijie Yang *,
Physica A 505 (2018) 179–189
[067]State network approach to characteristics of financial crises,
LuQiu, Changgui Gu, Qin Xiao, Huijie Yang, Guolin Wu,
PhysicaA 492 1120–1128 (2018) .
[066]Exponential distance distribution of connected neurons in simulations oftwo-dimensional in vitro neural network development,
Zhi-SongLv, Chen-Ping Zhu, Pei Nie, Jing Zhao, Hui-Jie Yang, Yan-Jun Wang and Chin-KunHu,
Frontiersof Physics 12: 128902 (2017).
[065]The influence of migration speed on cooperation in spatial games,
Wen-Jing Li, Luo-Luo Jiang, Changgui Gu*, andHuijie Yang,
J.Stat. Mech (2017) 123401.
[064]Dispersion of the intrinsic neuronal periods affects the relationship of theentrainment range to the coupling strength in the suprachiasmatic nucleus,
ChangguiGu*, Huijie Yang and Man Wang,
Phys.Rev. E (2017) 96, 052207.
[063]Scaling invariance embedded in very short time series: A factorial moment baseddiffusion entropy approach,
Yue Yang, Lu Qiu, Tianguang Yang,Liying Hou, Changgui Gu and Huijie Yang,
Chinese J. Phys. 55, 2325–2335(2017).
[062]A uniform framework of projection and community detection for one-mode networkin bipartite networks,
Guolin Wu,Changgui Gu, Lu Qiu, Huijie Yang,
Chin. Phys.B 26(12), 128901 (2017); DOI:10.1088/1674-1056/26/12/128901
[061]Difference in intrinsic amplitudes of neuronal oscillators improves theirsynchronization in the suprachiasmatic nucleus,
Changgui Gu, and Huijie Yang,
Chaos 27, 093108 (2017)
[060]The asymmetry of the entrainment range induced by the difference in intrinsicfrequencies between two subgroups within the suprachiasmatic nucleus,
Changgui Gu*, and Huijie Yang,
Chaos 27, 063115 (2017).
[059]Entrainment range of the suprachiasmatic nucleus affected by the difference inthe neuronal amplitudes between the light-sensitive and light-insensitiveregions, Changgui Gu*, Huijie Yang, and Zhongyuan Ruan,
Phys. Rev. E 95, 042409 (2017).
[058]Network-based Landscape of Research Strengths of Universities in MainlandChina,
Zihua Liu, Qin Xiao, Qian Zhan,Changgui Gu, and Huijie Yang,
Physica A (2017)478, 49–62
[057]Dissociation between two subgroups of the suprachiasmatic nucleus affected by thenumber of damped oscillated neurons,
Changgui Gu*, Huijie Yang, andJos HT Rohling,
Phys. Rev. E 95, 032302 (2017).
[056]Evolution of scaling behaviors embedded in sentence series from A Story of theStone
Yue Yang, Changgui Gu, Qin Xiao, Huijie Yang
PLoS ONE 12(2): e** (2017).
[055]An Improved Archaeology Algorithm Based on Integrated Multi-Source BiologicalInformation for Yeast Protein Interaction Network,
Jin Zhang,Huijie Yang, Houbing Song, Yuan Zhang,
IEEE ACESS 5,15893-15900(2017).
[054]In search of coding and non-coding regions of DNA sequences based on balancedestimation of diffusion entropy,
Jin Zhang and Huijie Yang,
Journal of Biological Physics42(1), 99-106 (2016).
[053]差分网络研究金融危机对行业的冲击
邱路,贾天明,杨会杰
物理学报65,198901(2016)
[052] Multifractals embeddedin short time series: An unbiased estimation of probability moment,
LuQiu, Tianguang Yang, Yanhua Yin, Changgui Gu and Huijie Yang,
Phys.Rev. E 94(6), 062201(2016)
[051] Adiffusion perspective on temporial networks: A case study on a supermarket
Shiguo Deng, Lu Qiu, Yue Yang, and HuijieYang
Physica A 441,62-68(2016)
[050]Noise induces oscillation and synchronization of the circadian neurons
Changgui Gu, Jinshan Xu, Jos Rohling, HuijieYang, and Zonghua Liu
PLOS ONE 10(12):e**(2015)[13 pages]
[049]Visibility graph based time series analysis
Mutua Stephen, Changgui Gu, and Huijie Yang
PLOS ONE 10(11):e143015(2015) [19 pages]
[048] Investigation ofLogistic chaotic time series based upon energy spectral fluctuation analysis
QinXiao, and Huijie Yang
Journalof Atomic and Molecular physics 32(5),891-895(2015) [in Chinese]
[047]Nontrivial characteristics embedded in microarray coexpression profiles
Chuanyang Yin, Huijie Yang, Guimei Zhu, andBinghong Wang
Journal of Physics: conference series604,012022(2015)
[046]Discrete scale-invariance in cross-correlation between time series
Qin Xiao, Xue Pan, Mutua Stephen, Xinli Li,and Huijie Yang
Physica A 421,161-170(2015)
[045]Network-based identification of reliable bio-markers for cancers
Shiguo Deng, Jingchao Qi, Mutua Stephen, LuQiu, Huijie Yang
Journal of Theoretica Biology 383,20-27(2015)
[044] Energy spectralbehaviors of communication networks of open-source communities
Jianmeiyang, Huijie Yang, Hao Liao, Jiangtao Wang, and Jinquan Zeng
PLOSONE 10(6):e**(2015)
[043]Long-term memories in online users' selection activities
Xue Pan, Lei Hou, Mutua Stephen, and HuijieYang
Physics Letters A 378(35),2591-2596(2014)
[042]Evaluation of scaling invariance embedded in short time series
Xue Pan, Lei Hou, Mutua Stephen, Huijie Yang,and Chenping Zhu
PLOS ONE 9(12):e116128(2014)
[041] The control gain regionfor synchronization in non-diffusively coupled complex networks
LiuGequn, Li Wenhui, Yang Huijie, and Gareth Knowles
Physica A 405,17-24(2014).
[040] Row-columnvisibility graph appraoch to two-dimensional landscapes
Xiao Qin, Pan Xue, Li Xin-li, Mutua Stephen,Yang Hui-jie, Jiang Yan, Wang Jian-yong, and Zhang Qing-jun
ChinesePhysics B 23(7):078904(2014)
[039]Statistics of extreme events in Chinese stock market
Wu Gan-hua, Qiu Lu, Mutua Stephen, Li Xin-li,Yang Yue, Yang Hui-jie, and Jiang Yan
ChinesePhysics B 23(12):**(2014)
[038]Principal Component Analysis Based Measure of Structural Holes
Shiguo Deng, Huijie Yang and Wenqing Zhang
Journal of Physics: Conf. Series410,012102(2013)
[037] Evaluation of scaleinvariance in physiological signals by means of balanced estimation ofdiffusion entropy
WenqingZhang, Lu Qiu, Qin Xiao, Huijie Yang, Qingjun Zhang, and Jianyong Wang
PhysicalReview E 86,056107(2012)
[036]Uncovering Evolutionary Ages of Nodes in Complex Networks
Guimei Zhu, Huijie Yang, Rui Yang, Jie Ren,Baowen Li, and Ying-cheng Lai
The European Physical Journal B 85,106(2012)[6 pages]
[035] 中国大学关系的复杂网络研究
王燕娟,齐景超,严捷冰,邓世果,肖琴,吴干华,杨会杰
科学通报 57卷10期: 875-882(2012)
[034]Hurst exponents for short time series
Jingchao Qi, and Huijie Yang
Physical Review E 84,066114(2011)
[033]Visibility graph approach to time series with different components
Jingchao Qi, Jianying Wang, et. al.
Fluctuation and Noise Letters 10(4),371(2011)
[032]Heat flux distribution and rectification of complex networks
Zonghua Liu, Xiang Wu, Huijie Yang, NeelimaGupte and Baowen Li
New Journal of Physics 12, 023016(2010)
[031]Visibility graph approach to exchange rate series
Yue Yang, Jianbo Wang, Huijie Yang, JingshiMang,
Physica A 388, 4431(2009).
[030]Complex network-based analysis of air temperature data in China
JianboWang, and Huijie Yang,
Mod. Phys. Lett. B 23,1781(2009)
[029]Complexities of human promoter sequences
Zhibin Jiang, Huijie Yang, and Jianbo Wang
Physica A 388,1299(2009)
[028]Localizations on complex networks
Guimei Zhu, Huijie Yang, Chuanyang Yin,and Baowen Li
Phys. Rev. E 77, 066113 (2008)
[027]Self-affine fractals embedded in spectra of complex networks
Huijie Yang, Chuanyang Yin, Guimei Zhu, andBaowen Li
Phys. Rev. E 77, 045101(R) (2008)
[026]Complex network-based time series analysis
Yue Yang,Huijie Yang
Physica A 387,1381(2008)
[025] The process of co-evolutionarycompetitive exclusion: speciation, multi-fractality and power-laws incorrelations
Chen-PingZhu, Tao Zhou, Hui-Jie Yang, Shi-Jie Xiong, Zhi-Ming Gu, Da-Ning Shi, Da-Ren Heand Bing-Hong Wang
NewJournal of Physics 10,023006 (2008)
[024]Scale invariance of human electroencephalogram signals in sleep
Shimin Cai, Zhaohui Jiang, Tao Zhou, PeilingZhou, Huijie Yang, and Binghong Wang
Phys.Rev. E 76, 061903 (2007)
[023]Diffusion entropy analysis on the stride interval fluctuation of human gait
Shimin Cai, Peiling Zhou, Huijie Yang, et al
Physica A 375, 687(2007)
[022]Scaling Behaviour and Memory in Heart Rate of Healthy Human
Shimin Cai,Hu Peng,Huijie Yang,et al
Chin. Phys. Lett. 24,3002(2007)
[021]Error thresholds for quasispecies on single peak Gaussian-distributed fitness
X. Feng, Y. Li, J. Gu, Y. Zhuo, and HuijieYang
J. Theor. Bio., 246,28(2007)
[020]Complexities of human promoter sequences
Fangcui Zhao, Huijie Yang, Binghong Wang
J. Theor. Bio., 247,645(2007)
[019]Synchronizabilities of Complex Networks: A New Index
Huijie Yang, Fangcui Zhao, Binghong Wang
CHAOS16,043112(2006)
[018]Nonlinear Modeling Approach to Human Promoter Sequences
Huijie Yang, fangcui Zhao, Jianzhong Gu,Binghong Wang
J. Theor. Bio. 241,765(2006)
[017]Collective Chaos Induced by Structures of Complex Networks
Huijie Yang, Fangcui Zhao, Binghong Wang
Physica A 364,544(2006)
[016]Diffusion entropy analysis on the scaling behavior of financial markets
Shi-Min Cai, Pei-Ling Zhou, Hui-Jie Yang,Chun-Xia Yang, Bing-Hong Wang and Tao Zhou
Physica A 367,337(2006)
[015] Relations betweenAverage Distance, Heterogeneity and Network Synchronizability
MingZhao, Tao Zhou, Binghong Wang, Gang Yan, Huijie Yang, Wenjie Bai
PhysicaA 371,773(2006)
[014]The synchronizability of highly clustered scale-free networks
WU Xiang, WANG Bing-Hong, ZHOU Tao, WANGWen-Xu, ZHAO Ming, and YANG Hui-Jie
ChinesePhysics Letters 23,1046 (2006) .
[013]Traffic dynamics based on an efficient routing strategy on scale free networks
Chuan-Yang Yin, Bing-Hong Wang, Wen-Xu Wang,Gang Yan, Hui-jie Yang
The European Physical Journal B49, 205(2006)
[012]Efficient routing on scale-free networks based on local information
Chuan-Yang Yin, Bing-Hong Wang, Wen-Xu Wang,Tao Zhou and Hui-Jie Yang
Physics Letters A351, 220(2006).
[011]Empirical Study on the Volatility of Hang-Seng Index
CaiShi-Min, Zhou Pei-Ling, Yang Hui-Jie, Yang Chun-Xia, Wang Bing-Hong, ZhouTao
Chin.Phys.Lett.23, 754(2006)
[010] Scaling Invariance inSpectra of Complex Networks: A Diffusion Factorial Moment Approach
FangcuiZhao, Huijie Yang, Binghong Wang
Physical Review E 72, 046119(2005)
[009]Diffusion Entropy Approach to Complexity of a Hodgkin-Huxley Neuron,
Huijie Yang, Fangcui Zhao, Wei Zhang andZhongnan Li,
Physica A 347,704(2005).
[008]Temporal series analysis approach to spectra of complex networks,
Huijie Yang, Fangcui Zhao, longyu Qi andBeilai Hu,
PhysicalReview E 69,066104(2004).
[007]Modeling SARS spreading on complex networks,
Huijie Yang, Yun Zhou, Fangcui Zhao, ZhongnanLi and Wei Zhang,
Int.J. Mod. Phys. B18, 2734(2004).
[006]Analysis of DNA Chains By Means of Factorial Moments,
Huijie Yang, Fangcui Zhao, Yizhong Zhuo,Xizhen Wu, Zhuxia Li,
PhysicsLetters A 292, 349(2002).
[005]Investigation on Gait Time Series By Means of Factorial Moments,
Huijie Yang, Fangcui Zhao, Yizhong Zhuo,Xizhen Wu, Zhuxia Li,
PhysicaA 312, 23 (2002).
[004]Dyamical Fluctuations in Biological Processes with Factorial Moments,
HuijieYang, Fangcui Zhao,
AIPConference Proceedings 597, 396 (2001).
[003] Using Nuclear TransportTheory to study Nonlinear Effects between the Different Strands in DNA
XianjunYang, Huijie Yang, Xizhen Wu, Yizhong Zhuo
ChineseJournal of Nuclear Physics 18(3),165-170 (1996).
[002] Theoretical Study ofBrownian-like Motion of Suspended Particles in Nematic Liquid Crystals,
Huijie Yang, Yizhong Zhuo, Xizhen Wu, XiaoweiTang
Phys. Lett. A 203, 157(1995).
[001] Investigation ofthermal denaturation of DNA molecules based upon non-equilibrium transportapproach,
HuijieYang, Yizhong Zhuo, Xizhen Wu,
Journalof Physics A27, 6147(1995).
主讲课程1、金融物理学导论/ FinancialPhysics(研究生/留学研究生)
2、系统生物学基础/BasicConcepts in Systems Biology(研究生/留学研究生)
3、自组织临界理论(研究生)
4、理论生物学(研究生)
5、高等量子力学(研究生)
6、统计学(本科)
7、计量经济学(本科)
8、数据结构(本科)
9、系统工程导论(本科)
10、人工智能基础(本科)
11、大学物理(本科)
12、量子力学(本科)
学术活动与社会服务【学术任职】
1、中国系统工程学会理事;
2、中国复杂科学研究会副主任;
3、中国交叉科学学会副秘书长;
4、中国交叉科学学会,复杂性科学专委会理事;
5、上海市学位委员会第五届学科评议组成员.
【工作经历】
2010.03--现在 上海理工大学,管理学院系统科学系,理学教授,博士生导师;2007.02--2010.03新加坡国立大学物理系,Research FellowA, 复杂网络与系统生物学相关课题研究,期间于2007年6月入职上海理工大学;
2002.4-2005.5 南开大学,物理学院生物物理系,副教授,生物物理系副主任;
2005.5-2007.2中国科学技术大学,近代物理系非线性科学中心,副教授(博士后),复杂网络与复杂性理论研究
1995.7-2002.4河北工业大学,理学院物理所,副教授,物理专业本科和研究生教学和科研工作;
荣誉上海市学科评议组成员
【荣誉称号】
2011年,上海市****,上海市教委
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上海理工大学管理学院导师教师师资介绍简介-杨会杰
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