Holonomic Gradient Descent for the Fisher-Bingham Distribution on the $d$-dimensional Sphere

Hiromasa Nakayama; Kenta Nishiyama; Nobuki Takayama; Tamio Koyama

arxiv: 1201.3239 · v5 · pith:TU4Y7IE7new · submitted 2012-01-16 · 🧮 math.ST · stat.TH

Holonomic Gradient Descent for the Fisher-Bingham Distribution on the d-dimensional Sphere

Tamio Koyama , Hiromasa Nakayama , Kenta Nishiyama , Nobuki Takayama This is my paper

classification 🧮 math.ST stat.TH

keywords descentdimensionaldistributionfisher-binghamgradientholonomicsphereaccelerated

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We propose an accelerated version of the holonomic gradient descent and apply it to calculating the maximum likelihood estimate (MLE) of the Fisher-Bingham distribution on a $d$-dimensional sphere. We derive a Pfaffian system (an integrable connection) and a series expansion associated with the normalizing constant with an error estimation. These enable us to solve some MLE problems up to dimension $d=7$ with a specified accuracy.

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Holonomic Gradient Descent for the Fisher-Bingham Distribution on the d-dimensional Sphere

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