Regulation et risque systémique SYstemic Risk TOmography: Signals, Measurements, Transmission Channels, and Policy Interventions M. Billio, Ca’ Foscari University of Venice (ITALY) M. Getmansky, Isenberg School of Management, University of Massachusetts (USA) D. Gray, International Monetary Fund (IMF) A.W. Lo, MIT Sloan School of Management (USA) R.C. Merton, MIT Sloan School of Management (USA) L. Pelizzon, Ca' Foscari University of Venice (Italy) and Goethe University Frankfurt (Germany) University of Orléans – Paris. November 5, 2013.
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Regulationetrisque systémique
SYstemic Risk TOmography:Signals, Measurements, Transmission Channels, and Policy Interventions
M. Billio, Ca’ Foscari University of Venice (ITALY)M. Getmansky, Isenberg School of Management, University of Massachusetts (USA)D. Gray, International Monetary Fund (IMF)A.W. Lo, MIT Sloan School of Management (USA)R.C. Merton, MIT Sloan School of Management (USA)L. Pelizzon, Ca' Foscari University of Venice (Italy) and Goethe University Frankfurt (Germany)
University of Orléans – Paris. November 5, 2013.
Sovereign, Bank, and Insurance Credit Spreads: Connectedness and System Networks
M. Billio, M. Getmansky, D. Gray A.W. Lo, R.C. Merton, L. Pelizzon
The research leading to these results has received funding from the European Union, Inquire Europe, and Seventh Framework Programme FP7/2007-2013 under grant agreement SYRTO-SSH-2012-320270.
Funded by the European Union7th Framework Programme (FP7)
SYRTO
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Objectives
• The risks of the banking and insurance systems have become increasingly interconnected with sovereign risk
• Highlight interconnections: • Among countries and financial
institutions • Consider both explicit and implicit
connections
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Methodology
• We propose to measure and analyze interactions between banks, insurers, and sovereigns using:
– Contingent claims analysis (CCA)
– Network approach
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Background
• Existing methods of measuring financial stability have been heavily criticized by Cihak (2007) and Segoviano and Goodhart (2009):
• A good measure of systemic stability has to incorporate two fundamental components: – The probability of individual financial
institution or country defaults– The probability and speed of possible shocks
spreading throughout the financial industry and countries
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Background
• Most policy efforts have not focused in a comprehensive way on: – Assessing network externalities – Interconnectedness between financial institutions,
financial markets, and sovereign countries – Effect of network and interconnectedness on
systemic risk
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Background: Feedback Loops of Risk from Explicit and Implicit Guarantees
Source: IMF GFSR 2010, October Dale Gray 6
Background
• The size, interconnectedness, and complexity of individual financial institutions and their inter-relationships with sovereign risk create vulnerabilities to systemic risk
• We use Expected Loss Ratios (based on CCA) and network measures to analyze financial system interactions and systemic risk
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Core Concept of CCA: Merton Model
• Expected Loss Ratio (ELR) = Cost of Guar/RF Debt = PUT/B exp[-rT]
• Fair Value CDS Spread = -log (1 – ELR)/ T
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Moody’s KMV CreditEdge for Banks and Insurers
• MKMV uses equity and equity volatility and default barrier (from accounting information) to get “distance-to- distress” which it maps to a default probability (EDF) using a pool of 30 years of default information
• It then converts the EDF to a risk neutral default probability (RNDP) using the market price of risk, then using the sector loss given default (LGD) it calculates the Expected Loss Ratio (ELR) for banks and Insurers:
EL Ratio = RNDP*LGD=PUT/B exp[-rT]
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Sovereign Expected Loss Ratio
• For this study the formula for estimating sovereign EL is simply derived from sovereign CDS
EL Ratio Sovereign = 1-exp(-(Sovereign CDS/10000)*T)
• EL ratios for both banks and sovereigns have a horizon of 5 years (5-year CDS most liquid)
Linear Granger Causality Tests
ELRk (t) = ak + bk ELRk(t-1) + bjk ELRj(t-1) + Ɛt
ELRj(t) = aj + bj ELRj(t-1) + bkj ELRk(t-1) + ζt
• If bjk is significantly > 0, then j influences k• If bkj is significantly > 0, then k influences j• If both are significantly > 0, then there is
feedback, mutual influence, between j and k.
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Data
• Sample: Jan 01-Mar12• Monthly frequency• Entities:
• CCA - Moody’s KMV CreditEdge:– Expected Loss Ratios (ELR)
Mar 12
Blue InsuranceBlack SovereignRed Bank
Blue InsuranceBlack SovereignRed Bank 13
Mar 12
Blue InsuranceBlack SovereignRed Bank
Blue InsuranceBlack SovereignRed Bank 14
Network Measures
• Degrees
• Connectivity
• Centrality
•Indegree (IN): number of incoming connections •Outdegree (FROM): number of outgoing
connections•Totdegree: Indegree + Outdegree
•Number of node connected: Number of nodes reachable following the directed path•Average Shortest Path: The average number of steps required to reach the connected nodes
•Eigenvector Centrality (EC): The more the node is connected to central nodes (nodes with high EC) the more is central (higher EC)
Network Measures: FROM and TO Sovereign
17 X 102= 1734 potential connections FROM (idem for TO)
t=March 2008; t+1=March 2009; t = Jul 2011; t+1= Feb 2012Cumulated Exp. Loss Ratio ≡ Expected Loss Ratio of institution i + Expected Loss Ratios of institutions caused by i
Early Warning Signals
Cumulative Expected LossRatios
March 09 February 12Coeff t-stat Coeff t-stat
# of out lines 0.42 2.92Closeness Centrality -0.63 -2.51 -0.96 -6.40R-Square 0.17 0.24
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Conclusion
• The system of banks, insurance companies, and countries in our sample is highly dynamically connected
• We show how one sovereign/financial institution is spreading risk to another sovereign/financial institution
• Network measures allow for early warnings and assessment of the system complexity
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Implications
• The decision to bail out a bank or sovereign affects not only the sovereign and its own banks but also other sovereigns and foreign banks in a significant way
• Stress tests are not adequate. Need to account for interconnectedness and non-linearity in exposures
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Thank You!
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This project has received funding from the European Union’s Seventh Framework Programme for research, technological
development and demonstration under grant agreement n° 320270