pymle: A Python Package for Maximum Likelihood Estimation and Simulation of Stochastic Differential Equations
Dublin Core
Title
pymle: A Python Package for Maximum Likelihood Estimation and Simulation of Stochastic Differential Equations
Description
This paper introduces the object-oriented Python package pymle, which provides core functionality for maximum likelihood estimation and simulation of univariate stochastic differential equations. The package supports maximum likelihood estimation using Euler, Elerian, Ozaki, Shoji-Ozaki, Hermite polynomial, and Kessler density approximations, as well as a recently proposed continuous-time Markov chain approximation scheme. Exact maximum likelihood estimation is also provided when available. The framework supports estimation and simulation for 21 stochastic differential equations models at the time of writing, and its object oriented design facilitates easy extensions to new models and approximation methods.
Creator
Justin L. Kirkby, Dang H. Nguyen, Duy Nguyen, Nhu Nguyen
Source
https://www.jstatsoft.org/article/view/v113i04
Publisher
OJS/PKP
Date
6 AUGUSTUS 2025
Contributor
FAJAR BAGUS W
Format
PDF
Language
ENGLISH
Type
TEXT
Files
Collection
Citation
Justin L. Kirkby, Dang H. Nguyen, Duy Nguyen, Nhu Nguyen, “pymle: A Python Package for Maximum Likelihood Estimation and Simulation of Stochastic Differential Equations,” Repository Horizon University Indonesia, accessed January 11, 2026, https://repository.horizon.ac.id/items/show/9936.