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Microscopic characteristics of Chinese capital market based on the high frequency data of Shanghai composite index

Tang Zhen-Peng Chen Wei-Hong Ran Meng

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Microscopic characteristics of Chinese capital market based on the high frequency data of Shanghai composite index

Tang Zhen-Peng, Chen Wei-Hong, Ran Meng
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  • This paper mainly uncovers the typical microscopic characteristics of Chinese capital market in three different stock price stages of rising, steady and falling based on the high frequency data of Shanghai composite index. Firstly, by analyzing the probability distribution of the Shanghai composite index in different time intervals, we clearly find that the logarithmic change of the index presents an obvious heavy tail feature as well as non-Gaussian Levy distribution, and the return series converges to a normal distribution with the increase of the time interval, which becomes more significant especially in the falling stage of stock prices. Secondly, by calculating the autocorrelation function, we observe that unlike the return rate, the fluctuation ratio of Shanghai composite index demonstrates remarkable long memory volatility with a periodicity of about 240 min, and the autocorrelation curve in falling stage is much higher than in rising and steady stages. Thirdly, in the multi-fractal structure, the volatility of return series has significant short-term and long-term differences among three different stages of rising, steady and falling due to the effects of time limitation and liquidity of investment. Finally, the macroscopic behavior of the Shanghai composite index is relatively consistent with that of the international mature stock market, however, the corresponding microscopic characteristics demonstrate significant differences due to the fact that the Chinese capital market is strongly dependent on the macroeconomic policy, investor sentiment, and liquidity levels. It is quite remarkable that the tail distribution of mature stock market is much fatter than that of Chinese stock market because of the special control and limit mechanism of stock prices in China, which finally causes the considerably lower amplitude of price fluctuation. Moreover, it is also found that the attenuation speed of the autocorrelation function in the Chinese capital market is obviously slower than that in the mature stock market, which suggests that the behaviors of investors in Chinese stock market are more likely to be influenced by the historic exchange information. At the same time, the periodicity of autocorrelation function is actually caused by the inertia recoil of investors, which further verifies the information asymmetry of Chinese stock market. Especially, by changing the starting values of the samples, we find that the periodicity of autocorrelation function still remains the same, which indicates that the periodicity characteristic of stock price is not dominated only by the intraday pattern of trading activity. Therefore, the investors should discover the underlying rules of high-frequency data and extract more useful knowledge in order to guide their investment decisions more effectively.
      Corresponding author: Chen Wei-Hong, tingling69@163.com
    • Funds: Project supported by the National Natural Science Foundation of China (Grant Nos. 71573042, 71171056) and the Society Science Foundation for Young Ph. D. of Fujian Province, China (Grant No. FJ2016C200).
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    Mantegna R N, Stanley H E 1995 Nature 376 46

    [2]

    Chatfield C 2016 The Analysis of Time Series: An Introduction (Boca Raton: CRC Press) pp92-135

    [3]

    Chakraborti A, Toke I M, Patriarca M, Abergel F 2011 Quant. Financ. 11 991

    [4]

    Huang J P 2013 Economy Physics (Beijing: Higher Education Press) pp1-7 (in Chinese) [黄吉平 2013 经济物理学(北京:高等教育出版社)第1-7页]

    [5]

    Zhou R W, Li J C, Dong Z W, Li Y X, Qian Z W 2017 Acta Phys. Sin. 66 040501 (in Chinese) [周若微, 李江城, 董志伟, 李云仙, 钱振伟 2017 物理学报 66 040501]

    [6]

    Parisi D R, Sornette D, Helbing D 2013 Phys. Rev. E 87 012804

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    Wei Y, Wang P 2008 Physica A 387 1585

    [8]

    Wu P Z, Ma H R 2008 J. Shanghai Jiaotong Univ. 42 147 (in Chinese) [吴斌哲, 马红孺 2008 上海交通大学学报 42 147]

    [9]

    Gao Y C, Zeng Y, Cai S M 2015 J. Stats. Mech. 2015 03017

    [10]

    Qiu T, Zheng B, Ren F, Trimper S 2007 Physica A 378 387

    [11]

    Gao Y C, Cai S M, Wang B H 2012 J. Stats. Mech. 2012 12016

    [12]

    Mandelbrot B B 1963 J. Polit. Econ. 71 421

    [13]

    Sornette D, Knopoff L, Kagan Y, Vanneste C 1996 J. Geophys. Res. 101 13883

    [14]

    Zhou W X 2007 Introduction of Econophysics (Shanghai: Shanghai University of Finance and Economics Press) pp17-33 (in Chinese) [周炜星 2007 金融物理学导论 (上海: 上海财经大学出版社) 第17-33页]

    [15]

    Mantegna R N, Stanley H E 1994 Phys. Rev. Lett. 73 2946

    [16]

    Wang B H, Hui P M 2001 Eur. Phys. J. B 20 573

    [17]

    Issler M, Hller J, Imamoğlu A 2016 Phys. Rev. B 93 081414

    [18]

    Ncheuguim E K, Appiah-Kubi S, Ofori-Dankwa J 2014 Res. Meth. Strateg. Manag. 10 215

    [19]

    Liu S D, Fu Z T, Liu S K 2014 Chin. J. Geophys. 57 2751 (in Chinese) [刘式达, 付遵涛, 刘式适 2014 地球物理学报 57 2751]

    [20]

    Ma F, Wei Y, Huang D, Chen Y 2014 Physica A 405 171

    [21]

    Mandelbrot B 1974 J. Appl. Probab. 11 437

    [22]

    Zhang T W, Lu W B, Li S 2013 Economist 9 97 (in Chinese) [张腾文, 鲁万波, 李隋 2013 经济学家 9 97]

    [23]

    Wu M C, Huang M C, Yu H C, Chiang T C 2006 Phys. Rev. E 73 019908

    [24]

    Zhou W C, Xu H C, Cai Z Y, Wei J R, Zhu X Y, Wang W, Zhao L, Huang J P 2009 Physica A 388 891

    [25]

    Calvet L E, Fisher A 2008 Multifractal Volatility: Theory, Forecasting, and Pricing (Massachusetts: Acedemic Press) pp23-31

    [26]

    Toth B, Eisler Z, Lillo F, Bouchaud J P, Kockelkoren J, Farmer J D 2012 Quant. Financ. 12 1015

    [27]

    Flimonov V, Sornette D 2012 Phys. Rev. E 85 056108

  • [1]

    Mantegna R N, Stanley H E 1995 Nature 376 46

    [2]

    Chatfield C 2016 The Analysis of Time Series: An Introduction (Boca Raton: CRC Press) pp92-135

    [3]

    Chakraborti A, Toke I M, Patriarca M, Abergel F 2011 Quant. Financ. 11 991

    [4]

    Huang J P 2013 Economy Physics (Beijing: Higher Education Press) pp1-7 (in Chinese) [黄吉平 2013 经济物理学(北京:高等教育出版社)第1-7页]

    [5]

    Zhou R W, Li J C, Dong Z W, Li Y X, Qian Z W 2017 Acta Phys. Sin. 66 040501 (in Chinese) [周若微, 李江城, 董志伟, 李云仙, 钱振伟 2017 物理学报 66 040501]

    [6]

    Parisi D R, Sornette D, Helbing D 2013 Phys. Rev. E 87 012804

    [7]

    Wei Y, Wang P 2008 Physica A 387 1585

    [8]

    Wu P Z, Ma H R 2008 J. Shanghai Jiaotong Univ. 42 147 (in Chinese) [吴斌哲, 马红孺 2008 上海交通大学学报 42 147]

    [9]

    Gao Y C, Zeng Y, Cai S M 2015 J. Stats. Mech. 2015 03017

    [10]

    Qiu T, Zheng B, Ren F, Trimper S 2007 Physica A 378 387

    [11]

    Gao Y C, Cai S M, Wang B H 2012 J. Stats. Mech. 2012 12016

    [12]

    Mandelbrot B B 1963 J. Polit. Econ. 71 421

    [13]

    Sornette D, Knopoff L, Kagan Y, Vanneste C 1996 J. Geophys. Res. 101 13883

    [14]

    Zhou W X 2007 Introduction of Econophysics (Shanghai: Shanghai University of Finance and Economics Press) pp17-33 (in Chinese) [周炜星 2007 金融物理学导论 (上海: 上海财经大学出版社) 第17-33页]

    [15]

    Mantegna R N, Stanley H E 1994 Phys. Rev. Lett. 73 2946

    [16]

    Wang B H, Hui P M 2001 Eur. Phys. J. B 20 573

    [17]

    Issler M, Hller J, Imamoğlu A 2016 Phys. Rev. B 93 081414

    [18]

    Ncheuguim E K, Appiah-Kubi S, Ofori-Dankwa J 2014 Res. Meth. Strateg. Manag. 10 215

    [19]

    Liu S D, Fu Z T, Liu S K 2014 Chin. J. Geophys. 57 2751 (in Chinese) [刘式达, 付遵涛, 刘式适 2014 地球物理学报 57 2751]

    [20]

    Ma F, Wei Y, Huang D, Chen Y 2014 Physica A 405 171

    [21]

    Mandelbrot B 1974 J. Appl. Probab. 11 437

    [22]

    Zhang T W, Lu W B, Li S 2013 Economist 9 97 (in Chinese) [张腾文, 鲁万波, 李隋 2013 经济学家 9 97]

    [23]

    Wu M C, Huang M C, Yu H C, Chiang T C 2006 Phys. Rev. E 73 019908

    [24]

    Zhou W C, Xu H C, Cai Z Y, Wei J R, Zhu X Y, Wang W, Zhao L, Huang J P 2009 Physica A 388 891

    [25]

    Calvet L E, Fisher A 2008 Multifractal Volatility: Theory, Forecasting, and Pricing (Massachusetts: Acedemic Press) pp23-31

    [26]

    Toth B, Eisler Z, Lillo F, Bouchaud J P, Kockelkoren J, Farmer J D 2012 Quant. Financ. 12 1015

    [27]

    Flimonov V, Sornette D 2012 Phys. Rev. E 85 056108

Metrics
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  • PDF Downloads:  379
  • Cited By: 0
Publishing process
  • Received Date:  06 January 2017
  • Accepted Date:  06 April 2017
  • Published Online:  05 June 2017

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