Cascades in multiplex financial networks with debts of different seniority

Brummitt, Charles D.; Kobayashi, Teruyoshi

doi:10.1103/physreve.91.062813

Cited by 54 publications

(43 citation statements)

References 42 publications

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“…This work lays out the foundations for other researchers to study how patterns and anomalies emerge in financial systems at different temporal resolutions: in the future, such a framework could contribute to controlling the spread of financial systemic risk [9,10,[29][30][31]. It would be interesting to investigate whether our method could be used both in predictive and prescriptive ways to help determine what could happen under certain risk conditions, as well as to provide possible intervention strategies prior to shocks or cascading collapses in financial systems.…”

Section: Discussionmentioning

confidence: 99%

“…Importantly, even in a situation in which bank activity has certain patterns at intra-and inter-day scales, it remains of paramount importance to understand whether the intra-day patterns are independent of the inter-day patterns (i.e., mono-timescale patterns) or they are correlated with each other (i.e., multitimescale patterns). Our framework to extract multi-timescale patterns advances the understanding of when and how banks react to systemic shocks, and in the future it could contribute to controlling the spread of financial systemic risk [9,10,[29][30][31].…”

Section: Introductionmentioning

confidence: 99%

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Extracting the multi-timescale activity patterns of online financial markets

Kobayashi¹,

Sapienza²,

Ferrara³

2018

Sci Rep

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Online financial markets can be represented as complex systems where trading dynamics can be captured and characterized at different resolutions and time scales. In this work, we develop a methodology based on non-negative tensor factorization (NTF) aimed at extracting and revealing the multi-timescale trading dynamics governing online financial systems. We demonstrate the advantage of our strategy first using synthetic data, and then on real-world data capturing all interbank transactions (over a million) occurred in an Italian online financial market (e-MID) between 2001 and 2015. Our results demonstrate how NTF can uncover hidden activity patterns that characterize groups of banks exhibiting different trading strategies (normal vs. early vs. flash trading, etc.). We further illustrate how our methodology can reveal “crisis modalities” in trading triggered by endogenous and exogenous system shocks: as an example, we reveal and characterize trading anomalies in the midst of the 2008 financial crisis.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Extracting the multi-timescale activity patterns of online financial markets

Kobayashi¹,

Sapienza²,

Ferrara³

2018

Sci Rep

Self Cite

View full text Add to dashboard Cite

show abstract

“…Therefore, a potential area of future research would be to improve realism by extending the work to include a more detailed representation of contagion channels, e.g. based on the recent literature on multiplex networks (Montagna and Kok, 2013;Brummitt and Kobayashi, 2015;Poledna et al, 2015). Another possible avenue for future work would be to allow bank connections to evolve over time as strategies change, creating an adaptive network of interconnected balance sheets.…”

Section: Discussionmentioning

confidence: 99%

The evolution of risk and bailout strategy in banking systems

Caux

McGroarty

Brede

2017

Physica A: Statistical Mechanics and its Applications

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In this paper we analyse the long-term costs and benefits of bailout strategies in models of networked banking systems. Unlike much of the current literature on financial contagion that focuses on systemic risk at one point in time, we consider adaptive banks that adjust risk taking in response to internal system dynamics and regulatory intervention, allowing us to analyse the potentially crucial moral hazard aspect associated with frequent bailouts. We demonstrate that whereas bailout generally serves as an effective tool to limit the size of bankruptcy cascades in the short term, inappropriate intervention strategies can encourage risk-taking and thus be inefficient and detrimental to long term system stability. We analyse points of long-term optimal bailout and discuss their dependence on the structure of the banking network. In the second part of the paper, we demonstrate that bailout efficiency can be improved by taking into account information about the topology of and risk allocation on the banking network, and demonstrate that finely tuned intervention strategies aimed at bailing out banks in configurations with some degree of anti-correlated risk have superior performance. These results demonstrate that a suitable intervention policy may be a useful tool for driving the banking system towards a more robust structure.

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“…Most infrastructure is embedded in space, for example the power grid and sewer networks, and thus, several models have been proposed for understanding the vulnerability of spatially embedded networks [1][2][3][4][5][6][7][8][9]. In addition, in recent years, world-wide human, technological, social and economic systems have become more and more integrated and interdependent, affecting infrastructure robustness [10][11][12][13] as well as information spreading [14] and other socioeconomic processes [15][16][17]. Therefore, it is necessary to realistically model these systems as interdependent in order to understand their structure, function and vulnerabilities [18][19][20][21][22][23][24][25][26][27][28].…”

Section: Introductionmentioning

confidence: 99%

Spreading of localized attacks in spatial multiplex networks

2017

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Many real-world multilayer systems such as critical infrastructure are interdependent and embedded in space with links of a characteristic length. They are also vulnerable to localized attacks or failures, such as terrorist attacks or natural catastrophes, which affect all nodes within a given radius. Here we study the effects of localized attacks on spatial multiplex networks of two layers. We find a metastable region where a localized attack larger than a critical size induces a nucleation transition as a cascade of failures spreads throughout the system, leading to its collapse. We develop a theory to predict the critical attack size and find that it exhibits novel scaling behavior. We further find that localized attacks in these multiplex systems can induce a previously unobserved combination of random and spatial cascades. Our results demonstrate important vulnerabilities in real-world interdependent networks and show new theoretical features of spatial networks.

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Cascades in multiplex financial networks with debts of different seniority

Cited by 54 publications

References 42 publications

Extracting the multi-timescale activity patterns of online financial markets

Extracting the multi-timescale activity patterns of online financial markets

The evolution of risk and bailout strategy in banking systems

Spreading of localized attacks in spatial multiplex networks

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