Provides likelihood functions for Gaussian Processes.
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Jul 21, 2024 - Julia
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likelihood-functions
Here are 15 public repositories matching this topic...
X-PSI: X-ray Pulse Simulation and Inference
astronomy
modeling
astrophysics
sampling
parameter-estimation
astronomical-algorithms
likelihood-functions
statistics-modeling
x-ray-astronomy
astrophysical-simulation
posterior-sampling
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Nov 19, 2024 - Python
Toolbox for non-linear calibration modeling.
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Nov 18, 2024 - Jupyter Notebook
A repository for the 'concurve' R package which generates confidence distributions and likelihood functions. Includes documentation on how to do produce similar graphs for Stata.
r
stata
confidence-intervals
bootstrap-method
likelihood-functions
frequentist-methods
consonance
cumulative-distribution-function
compatibility-intervals
confidence-distribution
fiducial-distribution
density-function
surprisal-function
deviance-function
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Jan 7, 2024 - TeX
Modelling extreme values
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Oct 23, 2024 - R
Parallel Metropolis-Hastings Markov chain Monte Carlo toolkit
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Mar 14, 2017 - C++
Likelihood to account for Monte Carlo statistical uncertainties
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Apr 29, 2023 - CSS
Formulate likelihood problems and solve them with maximum likelihood estimation (MLE)
statistics
statistical-inference
likelihood
maximum-likelihood
maximum-likelihood-estimation
likelihood-functions
log-likelihood
maximum-likelihood-problems
log-likelihood-functions
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Oct 8, 2020 - Julia
This aim of this project is to analyze globular star clusters in the Milky Way, in order to understand their dynamics. The conducted study examined the properties that affect the central velocity dispersion, their impact and the correlations between them.
r
statistics
space
statistical-learning
p-value
statistical-analysis
report
astrophysics
confidence-intervals
stars
universe
bayesian-networks
linear-models
bic
gaussian-graphical-models
likelihood-functions
aic
gaussian-distribution
globular-clusters
correlation-analysis
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Feb 24, 2024 - HTML
The maximum likelihoood estimator approach is used here for calculating the Regression parameter that is slope(b1),intercept(b0) and standard deviation of error/residuals. Then Result or the output for the regression parameters using the OLS(ordiniary Least Sqaure) estimation method versus the MLE(MAximum Likelihood Estimation) method is compare…
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Jan 18, 2022 - Jupyter Notebook
Eindhoven University of Technology (TU/e) course "Improving your statistical inferences" by Daniel Lakens on Coursera (completed Dec 2022).
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Feb 19, 2023 - R
Matrix Determinant Toolkit (memdet)
machine-learning
matrix-functions
gaussian-processes
posterior-probability
likelihood-functions
matrix-computations
memdet
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Oct 16, 2024 - Python
Dynamic failure rate distributions (DFR)
reliability
statistical-inference
survival-analysis
autoregressive
maximum-likelihood-estimation
likelihood-functions
failure-rate
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Dec 27, 2023 - R
Here for a small dataset we have used OLS(Ordiniary Least Square) and MLE(Maximum likelihood Estimation ) to calculate the regression parameters slope(b1),intercept(b0) and standard deviation of reisduals.At the end we can conclude that both the methods of estimation produces the same result.
regression
scatter-plot
ols-regression
maximum-likelihood-estimation
likelihood-functions
mle-estimation
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Jan 18, 2022 - Jupyter Notebook
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