Title :
Community-based identification of banking networks
Author :
Planck, Max ; Anselmo, Peter C.
Author_Institution :
Dept. of Comput. Sci., New Mexico Inst. of Min. & Technol., Socorro, NM, USA
fDate :
April 29 2013-May 1 2013
Abstract :
We present a statistically-based analysis of community characteristics of two networks in the context of a stylized model of the overnight interbank network. The networks analyzed are simulated interbank lending networks, which are formed on the basis of simple random criteria or on the basis of familiarity, or past history, between banks. We use a measure of betweenness centrality, coupled with a topological community network partition, to define a metric partition dubbed the Global Community Average Betweenness. Based on simulation data, this metric shows promise in distinguishing familiarity-based networks from randomly-selected networks, particularly when applied to the largest topological community in the network.
Keywords :
banking; network theory (graphs); banking networks; community characteristics; community-based identification; familiarity-based networks; global community average betweenness; interbank lending networks; metric partition; overnight interbank network; randomly-selected networks; statistically-based analysis; topological community; Analytical models; Banking; Communities; Context; Economic indicators; Measurement; agent-based banking system model; banking network; betweenness centrality;
Conference_Titel :
Network Science Workshop (NSW), 2013 IEEE 2nd
Conference_Location :
West Point, NY
Print_ISBN :
978-1-4799-0436-5
DOI :
10.1109/NSW.2013.6609202
