Collateral Unchained: Rehypothecation Networks, Concentration and Systemic Effects

Luu, Duc Thi; Napoletano, Mauro; Barucca, Paolo; Battiston, Stefano

doi:10.2139/ssrn.3123226

Cited by 5 publications

(7 citation statements)

References 20 publications

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“…It is hard to underestimate the importance of the presence of bimodular mesoscale structures in real-world networks: while the authors in [26] show that the most robust topology against random failures is the coreperiphery one, understanding the relationship between a given node systemicness and its coreness is of paramount importance in finance [6]. In the same field, a coreperiphery structure is believed to reflect the "essential" function of banks: the core ones tie the periphery ones into a single market through their intermediation activity [3].…”

Section: Discussionmentioning

confidence: 99%

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Detecting core-periphery structures by surprise

Jeude¹,

Caldarelli²,

Squartini³

2019

EPL

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Detecting the presence of mesoscale structures in complex networks is of primary importance. This is especially true for financial networks, whose structural organization deeply affects their resilience to events like default cascades, shocks propagation, etc. Several methods have been proposed, so far, to detect communities, i.e. groups of nodes whose internal connectivity is significantly large. Communities, however do not represent the only kind of mesoscale structures characterizing realworld networks: other examples are provided by bow-tie structures, core-periphery structures and bipartite structures. Here we propose a novel method to detect statistically-significant bimodular structures, i.e. either bipartite or core-periphery ones. It is based on a modification of the surprise, recently proposed for detecting communities. Our variant allows for bimodular nodes partitions to be revealed, by letting links to be placed either 1) within the core part and between the core and the periphery parts or 2) between the layers of a bipartite network. From a technical point of view, this is achieved by employing a multinomial hypergeometric distribution instead of the traditional, binomial hypergeometric one; as in the latter case, this allows a p-value to be assigned to any given (bi)partition of the nodes. To illustrate the performance of our method, we report the results of its application to several real-world networks, including social, economic and financial ones.

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Section: Discussionmentioning

confidence: 99%

“…This is especially true for financial networks, whose structural organization deeply affects their resilience to shocks propagation, node failures, etc. [3][4][5][6]. Several methods have been proposed, so far, to detect communities, i.e.…”

Section: Introductionmentioning

confidence: 99%

Detecting core-periphery structures by surprise

Jeude¹,

Caldarelli²,

Squartini³

2019

EPL

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“…Tout d'abord, elle implique que la politique monétaire doit être attentive à la façon dont les variations des taux d'intérêt à court terme et, par suite, les variations de la courbe des taux affectent la capacité des intermédiaires financiers à emprunter à court terme et à prêter à long terme. Deuxièmement, elle ouvre la voie à un autre canal de transmission de la politique monétaire, que certains appellent le «canal de prise de risque» (Borio et Zhou, 2012, Stiglitz, 2011 (Luu et al 2018). En outre, elles peuvent réduire le risque individuel par la diversification (Allen et Gale 2000, Battiston et al 2012.…”

Section: Reseaux Interconnexions Et Politique Monetaireunclassified

“…De même, si les créanciers décident de thésauriser, cela a des effets externes négatifs sur les liquidités disponibles de leurs emprunteurs. Une cascade de thésaurisation des liquidités peut ainsi se manifester, avec pour conséquence une réduction de la liquidité globale sur les marchés financiers (Gai, Haldane et Kapadia, 2011, Luu et al 2018. D'autre part, il existe des liens indirects entre les banques du fait qu'elles investissent dans des actifs communs (Battiston et al 2012, Cont et al 2013.…”

Section: Reseaux Interconnexions Et Politique Monetaireunclassified

Hétérogénéité des agents, interconnexions financières et politique monétaire : une approche non conventionnelle

Gaffard¹,

Napoletano²

2019

Revue Française d'Économie

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Dans cet article, nous réexaminons les fondements des modèles théoriques qui soustendent le consensus de politique monétaire prévalant avant la Grande Récession. Nous soulignons en quoi l'échec de ces modèles à prévenir la crise et à fournir un guide d'action pendant la récession était dû à l'excès de confiance dans la capacité d'autorégulation des marchés et à la négligence du rôle joué par la finance dont ils témoignaient. Nous présentons, ensuite, les bases d'une approche alternative de la politique monétaire qui met l'accent sur les processus de marché, la coordination entre agents hétérogènes et les externalités transmises via les interconnexions financières. De nouvelles classes de modèles, d'une part, les modèles à agents multiples et, d'autre part, les modèles de réseaux financiers, s'inscrivent dans cette approche. Nous discutons, enfin, des nouveaux éclairages fournis par ces modèles s'agissant de la conduite de la politique monétaire et de ses interactions avec les politiques budgétaire et macro-prudentielle.

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“…Over the last two decades, studies in the broader field of economic and financial networks studies of these systems have shown that the interconnectedness of the economic and financial system is a main driver of (in)stability [3][4][5]. The topology of the networks influences the resilience to shocks [6], and the evolution of mesoscale topological structures could even indicate early-warning signals of a crisis [7].…”

Section: Introductionmentioning

confidence: 99%

The multilayer structure of corporate networks

2019

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Various company interactions can be described by networks, for instance the ownership networks and the board membership networks. To understand the ecosystem of companies, these interactions cannot be seen in isolation. For this purpose we construct a new multiplex network of interactions between companies in Germany and in the United Kingdom, combining ownership links, social ties through joint board directors, R&D collaborations and stock correlations in one linked multiplex dataset. We describe the features of this network and show there exists a non-trivial overlap between these different types of networks, where the different types of connections complement each other and make the overall structure more complex. This highlights that corporate control, boardroom influence and other connections have different structures and together make an even smaller corporate world than previously reported. We have a first look at the relation between company performance and location in the network structure.

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Collateral Unchained: Rehypothecation Networks, Concentration and Systemic Effects

Cited by 5 publications

References 20 publications

Detecting core-periphery structures by surprise

Detecting core-periphery structures by surprise

Hétérogénéité des agents, interconnexions financières et politique monétaire : une approche non conventionnelle

The multilayer structure of corporate networks

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