Graphical models and variational Bayesian inference for financial networks
After the 2008 financial crisis, researchers found it’s necessary to understand the financial market as a network of institutions where connections among participants play an essential role in the contagion of systemic risk. To learn financial networks, network models based on correlations are su...
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sg-ntu-dr.10356-770462023-02-28T23:16:52Z Graphical models and variational Bayesian inference for financial networks Xin, Luyin Justin Dauwels Xiang Liming School of Physical and Mathematical Sciences DRNTU::Engineering::Computer science and engineering::Mathematics of computing::Probability and statistics DRNTU::Science::Mathematics::Statistics After the 2008 financial crisis, researchers found it’s necessary to understand the financial market as a network of institutions where connections among participants play an essential role in the contagion of systemic risk. To learn financial networks, network models based on correlations are superior but have limited modeling power. In this thesis, we propose a more powerful framework of graphical models, which is applicable to monoscale, multiscale and time-varying cases with sparse graphical representation. Existing frequentist methods for learning graphical models need to tackle penalty parameter selection while here we provide a tuning-free variational Bayesian inference by approximating the intractable posterior distribution by the variational distribution. It imposes shrinkage priors on the off-diagonal elements of the precision matrix, approximates the posterior distribution of the precision by Wishart distribution and then employs natural gradient-based optimization. The objective of multiscale model is to capture long-range correlations between distant sites while the time-varying graphical model aims to obtain smoothly-evolving networks across time. Simulated data is used to compare the performance of our models with other frequentist approaches. It shows that our models can better recover the true graph with fewer parameters and less computational time. Then we apply models to infer financial networks during the 2008 financial crisis period and the result reveals that monoscale model can detect connections within each region while multiscale model detects centricity and vulnerability in the system by removing the regional effect. On the other hand, the time-varying model successfully captures the market turbulence during the financial breakdown. Each of them is helpful to provide certain insight about the financial system. Bachelor of Science in Mathematical Sciences 2019-05-03T08:31:27Z 2019-05-03T08:31:27Z 2019 Final Year Project (FYP) http://hdl.handle.net/10356/77046 en 63 p. application/pdf |
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DRNTU::Engineering::Computer science and engineering::Mathematics of computing::Probability and statistics DRNTU::Science::Mathematics::Statistics Xin, Luyin Graphical models and variational Bayesian inference for financial networks |
| description |
After the 2008 financial crisis, researchers found it’s necessary to understand the financial market
as a network of institutions where connections among participants play an essential role in the
contagion of systemic risk. To learn financial networks, network models based on correlations
are superior but have limited modeling power. In this thesis, we propose a more powerful
framework of graphical models, which is applicable to monoscale, multiscale and time-varying
cases with sparse graphical representation. Existing frequentist methods for learning graphical
models need to tackle penalty parameter selection while here we provide a tuning-free
variational Bayesian inference by approximating the intractable posterior distribution by the
variational distribution. It imposes shrinkage priors on the off-diagonal elements of the precision
matrix, approximates the posterior distribution of the precision by Wishart distribution
and then employs natural gradient-based optimization. The objective of multiscale model is to
capture long-range correlations between distant sites while the time-varying graphical model
aims to obtain smoothly-evolving networks across time. Simulated data is used to compare
the performance of our models with other frequentist approaches. It shows that our models
can better recover the true graph with fewer parameters and less computational time. Then
we apply models to infer financial networks during the 2008 financial crisis period and the
result reveals that monoscale model can detect connections within each region while multiscale
model detects centricity and vulnerability in the system by removing the regional effect. On the
other hand, the time-varying model successfully captures the market turbulence during the financial
breakdown. Each of them is helpful to provide certain insight about the financial system. |
| author2 |
Justin Dauwels |
| author_facet |
Justin Dauwels Xin, Luyin |
| format |
Final Year Project |
| author |
Xin, Luyin |
| author_sort |
Xin, Luyin |
| title |
Graphical models and variational Bayesian inference for financial networks |
| title_short |
Graphical models and variational Bayesian inference for financial networks |
| title_full |
Graphical models and variational Bayesian inference for financial networks |
| title_fullStr |
Graphical models and variational Bayesian inference for financial networks |
| title_full_unstemmed |
Graphical models and variational Bayesian inference for financial networks |
| title_sort |
graphical models and variational bayesian inference for financial networks |
| publishDate |
2019 |
| url |
http://hdl.handle.net/10356/77046 |
| _version_ |
1759856819723829248 |