Nonlinear dynamics and recurrence plots for detecting financial crisis |
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| Affiliation: | 1. European Doctorate in Economics ⿿ Erasmus Mundus (EDEEM), France;2. Università Ca⿿Foscari of Venice, Department of Economics, France;3. Centre d⿿économie de la Sorbonne (CES) ⿿ CNRS: UMR8174 ⿿ Université Paris I ⿿ Panthéon Sorbonne, France;4. Ecole d⿿ÿconomie de Paris ⿿ Paris School of Economics (EEP-PSE), France;1. Doosan Skoda Power, Tylova 1/57 Plzen, 301 28, Czech Republic;2. Inria Bordeaux Sud-Ouest, 200 avenue de la Vieille tour, 33405 Talence cedex, France;3. Institute of Mathematics, University of Zurich, Wintcerthurerstrasse 190 CH8057 Zurich, Switzerland;4. von Karman Institute for Fluid Dynamics, Chausse de Waterloo, 72, B-1640 Rhode-St-Gense, Belgium;1. Brunel University London, United Kingdom;2. Higher School of Economics, National Research University, Moscow, Russian Federation;1. Turku School of Economics, University of Turku, Finland;2. Financial Stability and Statistics Department, Bank of Finland, Finland;3. Monetary Policy and Research Department, Bank of Finland, Finland;1. School of Business University of the Thai Chamber of Commerce, Bangkok, Thailand;2. Quality Engineer at JDA Software Pvt Ltd, India;3. Department of Mechanical and Industrial Engineering, Northeastern University, Boston, USA |
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| Abstract: | Identification of financial bubbles and crisis is a topic of major concern since it is important to prevent collapses that can severely impact nations and economies. Our analysis deals with the use of the recently proposed ⿿delay vector variance⿿ (DVV) method, which examines local predictability of a signal in the phase space to detect the presence of determinism and nonlinearity in a time series. Optimal embedding parameters used in the DVV analysis are obtained via a differential entropy based method using wavelet-based surrogates. We exploit the concept of recurrence plots to study the stock market to locate hidden patterns, non-stationarity, and to examine the nature of these plots in events of financial crisis. In particular, the recurrence plots are employed to detect and characterize financial cycles. A comprehensive analysis of the feasibility of this approach is provided. We show that our methodology is useful in the diagnosis and detection of financial bubbles, which have significantly impacted economic upheavals in the past few decades. |
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