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| Regressió Lineal Bayesiana× | Processos Gaussianos× | |
|---|---|---|
| Camp≠ | Bayesià | Aprenentatge automàtic |
| Família≠ | Bayesian methods | Machine learning |
| Any d'origen≠ | 2013 (modern reference); foundations 18th–19th century | 2006 (book); roots in Kriging, 1951) |
| Autor original≠ | Thomas Bayes / Pierre-Simon Laplace (foundations); modern workflow codified by Gelman et al. | Rasmussen, C. E. & Williams, C. K. I. |
| Tipus≠ | Bayesian linear model | Probabilistic non-parametric model |
| Font seminal≠ | Gelman, A., Carlin, J. B., Stern, H. S., Dunson, D. B., Vehtari, A. & Rubin, D. B. (2013). Bayesian Data Analysis (3rd ed.). CRC Press. ISBN: 978-1439840955 | Rasmussen, C. E., & Williams, C. K. I. (2006). Gaussian Processes for Machine Learning. MIT Press. ISBN: 978-0-262-18253-9 |
| Àlies≠ | bayesian linear model, probabilistic linear regression, Bayesçi Doğrusal Regresyon | GP, Gaussian Process Regression, GPR, Kriging |
| Relacionats≠ | 4 | 3 |
| Resum≠ | Bayesian linear regression is a probabilistic extension of the ordinary linear model, introduced through Bayes' rule and formalised in its modern computational workflow by Gelman et al. (2013). Rather than returning a single point estimate for each coefficient, it combines a user-specified prior distribution with the likelihood of the observed data to produce a full posterior distribution over all parameters, from which credible intervals and posterior predictive distributions are derived. | A Gaussian Process (GP) is a non-parametric, fully probabilistic machine learning model that places a prior distribution directly over functions. Rather than predicting a single value, it returns a predictive mean and a calibrated uncertainty estimate at every test point, making it especially valuable for regression on small to medium datasets and for Bayesian optimization tasks. |
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