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知网论文检测示范—毕业论文参考文献格式标准

主题:论文格式与参考文献 版权:原创标记本站原创 更新时间:2020/07/10 阅读量:5019

本文是一篇知网和论文和检测和示范方面知识,对您的毕业论文参考文献算字数吗有参考作用学习.

据了解很多毕业生只关注论文正文内容的质量,心思都放在了文章的写作上,却忽视了毕业论文的格式问题,有的同学通过中国知网论文检测查重系统入口检测重复率以后发现论文参考文献也被标红了,这是为什么呢?参考文献本身是不参与检测的,只有格式不对的情况下才会被当作正文检测,下面举例介绍标准的参考文献格式供大家参考:

  毕业论文参考文献格式标准的一:

[1]刘仁伍,中国保险业:现状与发展:[M],社会科学文献出版社,2008年.

知网论文检测示范—毕业论文参考文献格式标准

[2]许谨良,保险产品创新:[M],上海财经大学出版社,2006年.

[3]郑伟,中国保险业发展研究:[M],经济科学出版社,2011年.

[4]孙祁祥,郑伟,中国保险並发展报告2012: [M],北京大学出版社,2012年.

[5]王燕,应用时间序列分析(第三版):[M],中国人民大学出版社,2012年.

[6]田铮,时间序列的理论与方法(第二版):[M],高等教育出版社,2001年.

[7]梁来存,皮友静,我国保费收入的ARIMA模型与预测:[J],统计与决策,2006年第4期:26.

[8]汪远征,徐雅静,SAS软件与统计应用教程:[M],机械工业出版社,2007年.

[9]张芳洁,影响我国保险业发展的经济因素的实证分析:[J],数量经济技术经济研究,2004年第3期.

[10]潘红宇,时间序列分析:[M],对外经济贸易大学出版社,2006年.

[11]王沁,时间序列分析及其应用:[M],西南交通大学出版社,2008年.

[12]刘丹,带单位根的季节模型的特点:[D],东北师范大学,2007年.

[13]曹明,我国能源强度与能源之间的脉冲响应分析:[J],统计与决策,2011 年第 3 期:94-95

[14] Ngai Hang Chan,Time series : Applications To Finance With R andS?Plus( Second Edition) : [M],A John Wiley & Sons,INC.Publication,2010.

[15]李永猛,货币政策对我国城乡居民消费差距的脉冲相应分析:[J],研究生法学,第26卷第4期:136-142.

[16]费剑平改编,DamodarN. Gujarati,Dawn C.Porter,计量经济学基础(第五版):[M],中国人民大学出版社,2010年

[17] William H. Greene, Econometric Analysis (Fourth Edition) : [M], PrenticeHall, 2001

[18]王苏生,经济数学:[M],中国人民大学出版社,2008.

[19] Chris J. Lloyd,Data-Driven Business Decisions : [M], A John Wiley &Sons,ESTC.PubLication,2010.

[20]肖枝洪,郭明月,时间序列分析与SAS应用(第二版):[M],武汉大学出版社,2012年.

[21]潘红宇等译,Jonathan D. Cryer, Kung-Sik Chan,时间序列分析及应用源书第二版):[M],机械工业出版社,2011年

[22]易丹辉、刘超、贺学强等译,William W.S.Wei著,时间序列分析一单变量和多变量方法(第二版):[M],中国人民大学出版社,2009年.

[23]王黎明,王连,杨楠,应用时间序列分析:[M],复旦大学出版社,2009年.

[24]王成捧、尤梅芳、郝杨译,George E.P. Box, Gwilym M. Jenkins, GregoiyC. Reinsel,时间序列分析预测与控制源书第四版〉[M],机械工业出版社,2011年.

[25]赵长利、陈海泳、陈德阳,中国保险业保费收入灰色预测模型的研究:[J],统计与决策,2007年第13期:33-34.

[26]张云、高垒,基于乘积季节模型的我国保费收入的预测研究:[J],金融经济,2009 年第 14 期:95-97.

[27]陈权宝、聂锐,我国保险费收入预测模型的选择:[J],统计与决策,2005年第9期:18-19.

[28]Harold D Skipper Jr,,国际风险与保险:环境管理分析:[M],机械工业出版社,1999年.[29]郑伟;刘永东,中国保险业区域发展比较研究——基于“保险基准深度比”的分析:[J],《经济科学》,2008年第5期:96-109.

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[31] Gilbert, J.A., et al.,Metagenomes and metatranscriptomes from the L4 long-term coastalmonitoring station in the Western English Channel [J]. Standards in Genomic Sciences, 2010.3(2): p. 183-193.

[32] Mou, X.Z” et al., Metatranscriptomic signature of exogenous polyamine utilization bycoastal bacterioplankton [J]. Environmental Microbiology Reports, 2011. 3(6): p. 798-806.

[33] McCarren, J., et al,Microbial community transcriptomes reveal microbes and metabolicpathways associated with dissolved organic matter turnover in the sea [J]. Proceedings of theNational Academy of Sciences of the United States of America, 2010. 107(38): p.16420-16427.

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[35] Gilbert,J.A.,et al., The Taxonomic and Functional Diversity of Microbes at a TemperateCoastal Site: AMulti-Omic’ Study of Seasonal and Diel Temporal Variation [J]. Plos One,2010. 5(11).

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  毕业论文参考文献格式标准的二:

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[2] M. E. J. Newman. The structure and function of complex networks[J]. SIAM Rev., 2003, 45:167-256.

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[7] P. L. Krapivsky and S. Redner. Statistics of Changes in Lead Node in Connectivity-Driven Net-works[J]. Phys. Rev. Lett., 2002, 89:258703.

[8] R. Albert and A. L. Baraba′si. Statistical mechanics of complex networks[J]. Rev. Mod. Phys.,2002, 74:47-97.

[9] A. L. Baraba′si and R. Albert. Emergence of scaling in random networks[J]. Science, 1999,286:509-512.

[10] A. L. Baraba′si, R. Albert and H. Jeong. Mean-field theory for scale-free random networks[J].Physica A, 1999, 272:173-187.

[11]赵明,周涛,陈关荣,王秉宏.复杂网络上动力系统同步的研究进展II-如何提高网络的同步能力[J],物理学进展, 2008, 28:22.

[12] D. J. Watts and S. H. Strogatz. Collective dynamics of ’all-world’ networks[J]. Nature, 1998,393:440.

[13] E. Ben-Naim and P. L. Krapivsky. Leadership statistics in random structures[J]. Europhys. Lett.,2004, 65:151-157.

[14] V. D. Blondel, J. L. Guillaume, J. M. Hendrickx, C. Kerchove and R. Lambiotte. Local leaders inrandom networks[J]. Phys. Rev. E, 2008, 77:036114.

[15] C. Godreche, H. Grandclaude and J. M. Luck. Finite-Time fluctuations in the degree statistics ofgrowing networks[J]. J. Stat. Phys., 2009, 137:1117-1146.

[16] C. Godre`che, H. Grandclaude and J. M. Luck. Statistics of leaders and lead changes in growingnetworks[J]. J. Stat. Mech., 2010, P02001.

[17] C. Godre`che and J. M. Luck. On leaders and condensates in a growing network[J]. J. Stat. Mech.,2010, P07031.

[18]汪小帆,李翔,陈关荣.复杂网络理论及其应用[M].北京:清华大学出版社, 2006.

[19] X. W. Wang, G. H. Yang, X. L. Li and X. J. Xu. Rank-based deactivation model for networks withage[J]. Chin. Phys. B, 2013, 22:018903.

[20] S. N. Dorogovtsev and J. F. F. Mendes. Evolution of networks with aging of sites[J]. Phys. Rev. E,2000, 62:1842.

[21] H. Zhu, X. R. Wang and J. Y. Zhu. Effect of aging on network structure[J]. Phys. Rev. E, 2003,68:056121.

[22] X. J. Xu and M. C. Zhou. Rank-dependent deactivation in network evolution[J]. Phys. Rev. E,2009, 80:066105.

[23] C. Bedogne and G. J. Rodgers. Complex growing networks with intrinsic vertex fitness[J]. Phys.Rev. E, 2006, 74:046115.

[24] V. D. P. Servedio, G. Caldarelli and P. Butta`. Vertex intrinsic fitness: How to produce arbitraryscale-free networks[J]. Phys. Rev. E, 2004, 70:056126.

[25] P. Erdo s and A. Re′nyi. On the evolution of random graphs[J]. Publ. Math. Inst. Hung. Acad. Sci,1960, 5:17-61.

[26] G. Bianconi and A. L. Baraba′si. Bose-Einstein Condensation in Complex Networks[J]. Phys. Rev.Lett., 2001, 86:5632-5635.

[27] G. Bianconi and A. L. Baraba′si. Competition and multiscaling in evolving networks[J]. Europhys.Lett., 2001, 54:436-442.

[28] P. L. Krapivsky and S. Redner. Organization of growing random networks[J]. Phys. Rev. E, 2001,63:066123.

[29] Y. Schwarzkopf, A. Ra′kos, D. Mukamel. Epidemic spreading in evolving networks[J]. Phys. Rev.E, 2010, 82:036112.

[30]张海峰,傅新楚.含有免疫作用的SIR传染病模型在复杂网络上的动力学行为[J].上海大学学报(自然科学版), 2007, V13(2):189-192.

[31] T. Gross, C. J. D. D’Lima, B. Blasius. Epidemic Dynamics on an Adaptive Network[J]. Phys. Rev.Lett., 2006, 96:208701.

此文结论,上述文章是与论文格式与参考文献方面有关论述,在这里免费阅读,为您的毕业论文与参考文献与检测与论文与知网提供帮助了解.