复杂性科学视角下的金融研究新进展

doi:10.13306/j.1672-3813.2024.02.001

复杂系统与复杂性科学

2024, Vol. 21

Issue (2): 1-14 DOI: 10.13306/j.1672-3813.2024.02.001

综述

本期目录 | 过刊浏览 | 高级检索

复杂性科学视角下的金融研究新进展

卢周来¹, 孟斌斌¹, 吴伟韬¹, 赵晶², 戚刚¹, 赵扬帆¹

1.国防科技创新研究院,北京100071;
2.中国科学院数学与系统科学研究院,北京 100190

The Progress of Complexity Science in Finance Research

LU Zhoulai¹, MENG Binbin¹, WU Weitao¹, ZHAO Jing², QI Gang¹, ZHAO Yangfan¹

1. Defense Innovation Institute, Beijing 100071, China;
2. Academy of Mathematics and Systems Science, Chinese Academy of Sciences, Beijing 100190, China

摘要
参考文献
相关文章
Metrics

全文: PDF(2230 KB)
输出: BibTeX | EndNote (RIS)

摘要为解决基于均衡分析的新古典金融理论和行为金融理论在揭示金融危机机理和秩序涌现等方面的不足,更好地刻画大规模金融系统的复杂性特征,从现有理论的困境和引入复杂性科学的原因入手,着重总结和论述了多主体模拟和复杂网络分析两个复杂性科学的基本理论工具在金融研究中取得的进展,提出了复杂性科学在金融研究中的发展趋势,为新时期复杂金融系统的理论研究和政策应用提供了方法论基础和分析工具参考。

	服务

	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	卢周来
	孟斌斌
	吴伟韬
	赵晶
	戚刚
	赵扬帆

关键词 ：复杂性科学, 金融系统, 多主体模拟, 复杂系统, 涌现

Abstract：Mission of this research is to better capture the complexity of large-scale financial systems and overcome the insufficiency of equilibrium based neoclassical finance and behavioral finance in revealing the mechanism of financial crisis and the emergence of order. This study started from the dilemma of existing theories and the motivation of introducting complexity science. Then advances of multi-agent simulation and complex network analysis are summarized and discussed as two fundimental instruments of complexity science. Research trends of complexity science in financial research, are proposed as the result of the discussions. This study provides methodology reference and analytical tools for the theoretical research and practical applications of complex financial systems in the new era.

Key words： complexity science financial networks agent-based simulation complex systems emergence

收稿日期: 2022-11-16 出版日期: 2024-07-17

ZTFLH:	F4
	N94

通讯作者: 孟斌斌(1987-),男,山西临汾人,博士,副研究员,主要研究方向为科技协同创新、复杂性科学、金融安全等。

作者简介: 第一作者: 卢周来(1970-),男,安徽太湖人,博士,教授,主要研究方向为科技协同创新、复杂性科学、国防经济等。

引用本文:

卢周来, 孟斌斌, 吴伟韬, 赵晶, 戚刚, 赵扬帆. 复杂性科学视角下的金融研究新进展[J]. 复杂系统与复杂性科学, 2024, 21(2): 1-14.
LU Zhoulai, MENG Binbin, WU Weitao, ZHAO Jing, QI Gang, ZHAO Yangfan. The Progress of Complexity Science in Finance Research[J]. Complex Systems and Complexity Science, 2024, 21(2): 1-14.

链接本文:

https://fzkx.qdu.edu.cn/CN/10.13306/j.1672-3813.2024.02.001 或 https://fzkx.qdu.edu.cn/CN/Y2024/V21/I2/1

[1]ARTHUR W B. Complexity and the Economy[M]. Oxford:Oxford University Press,2014:100-116.
[2]HIDALGO C A. Economic complexity theory and applications[J]. Nature Reviews Physics, 2021,3:92-113.
[3]ZVI B,ROBERT C M,DAVID C. Financial Economics[M]. London:Pearson Learning Solutions,1988:2-11.
[4]陈智君.从2013年诺贝尔经济学奖看金融学的发展——以金融学说比较分析为角度[J]. 经济学家, 2014(6):91-102.
CHEN Z J. The development of finance from the 2013 Nobel Economics Prize—from the perspective of comparative analysis of financial theories [J]. The Economist,2014(6):91-102.
[5]陈平.经济数学为何如此落伍却自封社会科学之王？——经济学的七大困惑[J].政治经济学报,2018,12(2):131-144.
CHEN P. Why is economic mathematics so outdated but self-proclaimed king of social sciences? [J]. Journal of Political Economics,2018,12(2):131-144.
[6]吴晓求,许荣. 金融理论的发展及其演变[J].中国人民大学学报,2014,28(4):33- 40.
WU X Q, XU R. Development and evolution of financial theory [J]. Journal of Renmin University of China, 2014,28(4): 33-40.
[7]BOUCHAUD J. Econophysics: still fringe after 30 years?[J]. Europhysics News, 2019, 50(1):24-27.
[8]HELBING D, BALIETTI S. Fundamental and real-world challenges in economics[EB/OL]. [2022-11-15]. https://www.arxiv.org/PS_cache/arxiv/pdf/1012/1012.4446v1.pdf.
[9]布莱恩·阿瑟, 贾拥民. 复杂经济学:经济思想的新框架[M]. 杭州:浙江人民出版社,2018:50-63.
[10] WEAVER W. Science and complexity[J].American Scientist, 1948, 7(4): 536-644.
[11] KAHNEMAN D, TVERSKY A. Prospect theory: an analysis of decisions under risk[J].Econometrica, 1979,47(2):263-292.
[12] KAHNEMAN D, SLOVIC P, TVERSKY A. Judgment under Uncertainty: Heuristics and Biases[M]. London:Cambridge University Press,1982:141-142.
[13] SHEFRIN H, MEIR S. Behavioral portfolio theory[J].Journal of Financial and Quantitative Analysis,2000,35(2):127-151.
[14] SHEFRIN H, MEIR S. Behavioral capital asset pricing theory[J]. Journal of Financial and Quantitative Analysis,1994,29(3):323-349.
[15] SHEFRIN H. Behavioral corporate finance[J].Journal of Applied Corporate Finance, 2001,14(3):113-126.
[16] HIRSHLEIFER D. Psychological bias as a driver of financial regulation[J]. European Financial Management, 2008,14(5):856-874.
[17] BARBERIS N, THALER R. A survey of behavioral finance[J]. NBER Working Papers, 2002, 2(3):1053-1128.
[18] BARBERIS N. Psychology-based models of asset prices and trading volume[J]. Handbook of Behavioral Economics: Applications and Foundations, 2018.1(1):79-175.
[19] DA Z, GURUN U G, WARACHKA M. Frog in the Pan: continuous information and momentum[J]. Social science Electronic Publishing, 2014, 27(7):2171-2218.
[20] SIEGENFELD A F, BAR-YAM Y. An introduction to complex systems science and its applications[EB/OL]. [2022-11-15]. https://onlinelibrary.wiley.com/doi/epdf/10.1155/2020/6105872.
[21] 黄欣荣. 复杂性科学的方法论研究[M]. 重庆:重庆大学出版社, 2006:20-37.
[22] 盛昭翰, 于景元. 复杂系统管理:一个具有中国特色的管理学新领域[J]. 管理世界, 2021,37(6):36-50.
SHENG Z H, YU J Y. Complex system management: a new field of management with Chinese characteristics [J]. Management World, 2021,37(6):36-50.
[23] LI J H, HUANG W L. Paradigm shift in science with tackling global challenges[J]. National Science Review, 2019.6(6):1091-1093.
[24] 陈平, 刘刚. 代谢增长论:市场份额竞争、学习不确定性和技术小波[J]. 政治经济学报, 2014,2(1):26-25.
CHEN P, LIU G. Metabolic growth theory: market share competition, learning uncertainty and technological wavelet [J]. Journal of Political Economy, 2014,2(1):26-25.
[25] SIMON H. Facets of Systems Science [M].New York:Springer, 1962:467-482.
[26] LADYMAN J, LAMBERT J,WIESNER K.What is a complex system? [J]. European Journal for Philosophy of Science,2013,3:33-67.
[27] ANDREW H, TURRELL A.E, An interdisciplinary model for macroeconomics[J].Oxford Review of Economic Policy,2018,34 (1): 219-251.
[28] GUALDI S, TARZIA M, ZAMPONI F,et al. Tipping points in macroeconomic agent-based models[J].Economic Dynamics and Control, 2015,50:29-61.
[29] DELLI G D, PALESTRINI A, GAO E,et al. Emergent macroeconomics: an agent-based approach to business fluctuations[M].New York:Springer,2008:45-69.
[30] 韦立坚, 张维, 熊熊. 股市流动性踩踏危机的形成机理与应对机制[J]. 管理科学学报, 2017,20(3):1-23.
WEI L J, ZHANG W, XIONG X. Formation mechanism and coping mechanism of stock market liquidity stampede crisis [J]. Journal of Management Science, 2017,20(3):1-23.
[31] FARMER J D, PATELLI P, ZOVKO, I. The predictive power of zero intelligence models in financial markets [J]. Proceedings of the National Academy of Sciences of the United States of America,2005,102:2254-2259.
[32] BENINK H, BOSSAERTS P. An exploration of neo-Austrian theory applied to financial markets [J]. Journal of Finance,2001,56(3):1011-1027.
[33] BROCK W A,HOMMES C.Heterogeneous beliefs and routes to chaos in a simple asset pricing model[J]. Journal of Economic Dynamics ＆ Control, 1998, 22(8):1235-1274.
[34] VRIEND, N. An illustration of the essential difference between individual and social learning, and its consequences for computational analysis [J]. Journal of Economic Dynamics and Control,2000,24(1):1-19.
[35] YAMAMOTO R.Volatility clustering and herding agents: Does it matter what they observe?[J]. Journal of Economic Interaction and Coordination,2011,6(1) 41-59.
[36] KIRMAN A. Ants, rationality and recruitment[J]. Quarterly Journal of Economics, 1993,108(1) 137- 156.
[37] GAUNERSDORFER A,HOMMES C,WAGENER F O O.Bifurcation routes to volatility clustering under evolutionary learning[J]. Journal of Economic Behavior ＆ Organization,2008,67(1) 27-47.
[38] VRIEND N J. An illustration of the essential difference between individual and social learning, and its consequences for computational analyses[J]. Journal of Economic Dynamics and Control,2000,24(1):1-19.
[39] LEBARON B. Building the Santa Fe artificial stock market[DB/OL]. [2022-10-15]. https://www.researchgate.net/publication/228751516_Building_the_Santa_Fe_artificial_stock_market.
[40] GODE D K, SUNDER S. Allocative efficiency of markets with zero-intelligence traders: market as a partial substitute for individual rationality[J]. Journal of Political Economy,1993,101(1):119-137.
[41] GODE D K, SUNDER S. What makes markets allocationally efficient?[J].Quarterly Journal of Economics,1997, 112(2): 603-630.
[42] DUFFY J, ÜNVER M U. Asset price bubbles and crashes with near-zerointelligence traders[J].Economic Theory,2006, 27(3):537-563.
[43] LADLEY D, SCHENK-HOPPÉ K R. Do stylised facts of order book markets need strategic behaviour?[J].Journal of Economic Dynamics and Control,2009,33(4):817-831.
[44] LUX, T, MARCHESI M. Scaling and criticality in a stochastic multi-agent model of a financial market[J].Nature,1999,397: 498-500.
[45] LUX T, MARCHESI M. Volatility clustering in financial markets[J].International Journal of Theoretical and Applied Finance,2000,3(4):675-702.
[46] CHIARELLA C, IORI G. A simulation analysis of the microstructure of double auction markets[J].Quantitative Finance,2002,2(5):346-353.
[47] LEBARON B, YAMAMOTO R. Long-memory in an order-driven market[J].Physica A: Statistical Mechanics and its Applications,2007,383(1):85-89.
[48] CHIARELLA C, IORI G, PERELLÓ J. The impact of heterogeneous trading rules on the limit order book and order flows[J].Journal of Economic Dynamics and Control,2009,33(3):525-537.
[49] WESTERHOFF F. A simple agent-based financial market model: direct interactions and comparisons of trading profits[DB/OL].[2022-11-15]. https://link.springer.com/chapter/10.1007/978-3-642-04023-8_17.
[50] CHALLET D, MARSILI M, ZHANG Y C. Minority Games: Interacting Agents in Financial Markets[M].Oxford:Oxford University Press,2005:31-43.
[51] PASQUINI M, SERVA M. Clustering of volatility as a multiscale phenomenon[J].European Physical Journal,2000,16:195-201.
[52] IORI G. A microsimulation of traders activity in the stock market: the role of heterogeneity, agents interactions and trade frictions[J].Journal of Economic Behavior and Organization,2002,49(2):269-285.
[53] FÖLLMER H, HORST U, KIRMAN A. Equilibria in financial markets with heterogeneous agents: a probabilistic perspective[J].Journal of Mathematical Economics,2005,41(1):123-155.
[54] ALFARANO S,MILAKOVIC M. Should network structure matterin agent-based finance?[DB/OL].[2022-11-15]. https://www.xueshufan.com/publication/1929401064.
[55] PANCHENKO V, GERASYMCHUK S. Pavlov O V. Asset price dynamics with heterogeneous beliefs and local network interactions[J]. Journal of Economic Dynamics and Control,2013,37(12):2623-2642.
[56] BARABÁSI A L, ALBERT R. Emergence of scaling in random networks[J]. Science,1999,286 (5439): 509-512.
[57] NEWMAN M E J, Power laws, pareto distributions and zip’s law[J]. Contemporary Physics,2005:46(5), 323-51.
[58] GABAIX X. Power laws in economics and finance[J]. Annual Review of Economics, 2009,1(1):255-293.
[59] BISIN A, MORO A, TOPA G. The empirical content of models with multiple equilibria in economies with social interactions [DB/OL].[2022-11-15]. https://ideas.repec.org/p/nbr/nberwo/17196.html.
[60] 周艳波,蔡世民,周佩玲.金融市场的无标度特征研究[J].中国科学技术大学学报,2009,39(8):880-884.
ZHOU Y B, CAI S M, ZHOU P L. Scale-free characteristics of financial markets [J]. Journal of University of Science and Technology of China, 2009,39(8):880-884.
[61] ALBERT R, JEONG H,BARABÁSI A. Error and attack tolerance of complex networks [J]. Nature 2000,406:378-382.
[62] LIU Y, SLOTINE J,BARABÁSI, A.L. Controllability of complex networks[J]. Nature 2011,473:167-173.
[63] SCHEFFER M, CARPENTER S R, LENTON T M,et al. Anticipating critical transitions [J]. Science, 2012,338:344-348.
[64] BATTISTON S, FARMER J D, FLACHE A, et al. Complexity theory and financial regulation[J]. Science, 2016, 351: 818-819.
[65] MASTROMATTEO I, ZARINELLI E, MARSILI M. Reconstruction of financial networks for robust estimation of systemic risk[J]. Journal of Statistical Mechanics: Theory and Experiment, 2012, 3:11-15.
[66] CIMINI G, MASTRANDREA R, SQUARTINI T. Reconstructing Networks[M]. London:Cambridge University Press,2021:57-84.
[67] TEDESCHI G,IORI G, GALLEGATI M. Herding effects in order driven markets: the rise and fall of gurus[J]. Journal of Economic Behavior and Organization,2012,81(1):82-96.
[68] OZSOYLEV H N, WALDEN J, YAVUZ M D, et al. Investor networks in the stock market[J]. The Review of Financial Studies, 2014, 27(5):1323-1366.
[69] OZSOYLEV H N, WALDEN J. Asset pricing in large information networks[J]. Journal of Economic Theory, 2011, 146(6):2252-2280.
[70] JOHAN W. Trading, profits, and volatility in a dynamic information network model[J]. The Review of Economic Studies, 2019,86(5): 2248-2283.[71] BAKKER L, HARE W, KHOSRAVI H, et al. A social network model of investment behaviour in the stock market[J]. Physica A Statal Mechanics & Its Applications, 2010, 389(6):1223-1229.
[72] LUCA R, ALBERTO R, MAURO G. Firm-bank credit network, business cycle and macroprudential policy[J]. Journal of Economic Interaction and Coordination, 2022,17(2):475-499.
[73] UPPER C. Simulation methods to assess the danger of contagion in interbank markets [J].Journal of Financial Stability,2011,7(3):111-125.
[74] MARCO B, FABIO C, IGNACIO P J, et al. Distress propagation in complex networks: the case of non-linear DebtRank[J]. Plos One, 2016, 11(10):e0163825.
[75] ACEMOGLU D, OZDAGLAR A, TAHBAZ-SALEHI A. Systemic risk and stability in financial networks[J]. Social Science Electronic Publishing, 2015, 105(2):564-608.
[76] HIDEAKI A, BATTISTON S, YOSHI F. DebtRank analysis of the Japanese credit network[DB/OL].[2022-11-15]. https://econpapers.repec.org/paper/etidpaper/13087.htm.
[77] ALTER A, CRAIG B R, RAUPACH P. Centrality-based Capital Allocations [DB/OL].[2022-11-15]. https://www.ijcb.org/journal/ijcb15q3a8.pdf.
[78] ALESSANDRI P, HALDANE A G. Banking on the State[DB/OL].[2022-11-15]. https://webarchive.nationalarchives.gov.uk/ukgwa/20091111064714/http:/www.bankofengland.co.uk/publications/speeches/2009/speech409.pdf.
[79] HALDANE A. G. Rethinking the financial network [DB/OL].[2022-11-15]. https://link.springer.com/content/pdf/10.1007/978-3-658-02248-8_17.pdf.
[80] TURRELL A, BRAUN-MUNZINGER K, LIU Z. An agent-based model of dynamics in corporate bond trading [DB/OL]. [2022-11-15].https://www.bankofengland.co.uk/-/media/boe/files/working-paper/2016/an-agent-based-model-of-dynamics-in-corporate-bond-trading.pdf.
[81] BAPTISTA R, HINTERSCHWEIGER M, LOW K, et al. Macroprudential policy in an agent-based model of the UK housing market[DB/OL]. [2022-11-15]. https://www.bankofengland.co.uk/-/media/boe/files/working-paper/2016/macroprudential-policy-in-an-agent-based-model-of-the-uk-housing-market.pdf.
[82] AYMANNS C, FARMER J D. The dynamics of the leverage cycle[J]. Journal of Economic Dynamics & Control, 2015, 50:155-179.
[83] BATTISTON S, GATTI D D, GALLEGATI M, et al. Liaisons dangereuses: increasing connectivity, risk sharing, and systemic risk[J]. Journal of Economic Dynamics & Control, 2012, 36(8):1121-1141.
[84] ARTHUR W B. Foundations of complexity economics[J]. Nature Reviews Physics, 2021,3:136-145.
[85] WEST G. Scale: the universal laws of growth, innovation, sustainability, and the pace of life in organisms, cities, economies, and companies[M]. London:Penguin Press, 2017:17-41.
[86] PEARL J, MACKENZIE D. The book of why: the new science of cause and effect[M]. New York: Basic Books,2018:33-42.

[1]	刘勇. 疾病、经济增长与相对贫困的复杂系统建模研究[J]. 复杂系统与复杂性科学, 2021, 18(4): 58-65.
[2]	李培哲. 产学研视角下高技术产业成长系统动力学研究[J]. 复杂系统与复杂性科学, 2020, 17(2): 76-85.
[3]	李鹤龄, 王雅婷, 杨斌, 沈宏君. 完全开放系统的幂律分布及其适用对象[J]. 复杂系统与复杂性科学, 2019, 16(3): 71-78.
[4]	孙晓燕, 韩晓, 闫小勇, 王文旭, 姜锐, 贾斌. 交通出行选择行为实验研究进展[J]. 复杂系统与复杂性科学, 2017, 14(3): 1-7.
[5]	崔琼, 李建华, 冉淏丹, 南明莉. 任务流驱动的指挥信息系统动态超网络模型[J]. 复杂系统与复杂性科学, 2017, 14(3): 58-67.

Viewed

Full text

Abstract

Cited

Shared

Discussed