BAYESIAN STATISTICS Meaning and
Definition
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Bayesian statistics, also known as Bayesian inference or Bayesian probability theory, is a statistical discipline that utilizes Bayes' theorem to update and revise probabilities as new data or evidence becomes available. It is named after the Reverend Thomas Bayes who pioneered this approach in the 18th century.
The core concept of Bayesian statistics is the application of probability theory to measure and update uncertainties in statistical models and predictions. In traditional statistics, probability is interpreted as the long-term frequency of an event occurring, whereas in Bayesian statistics, probability represents a degree of belief or confidence in an event occurring.
Bayesian statistics begins with an initial prior probability, which expresses the belief about an event before any new data is observed. As new evidence is obtained, the prior probability is mathematically updated using Bayes' theorem, taking into account the likelihood of the observed data given different model parameters. This results in a posterior probability distribution, which represents the revised or updated belief after considering the new evidence.
One of the main advantages of Bayesian statistics is its ability to handle complex and subjective uncertainties by incorporating prior information and continually updating probabilities. It allows for the incorporation of prior knowledge and expert opinions, making it particularly valuable in situations with limited data or conflicting evidence. Bayesian statistics is widely used in various fields including machine learning, data analysis, decision-making, and experimental design. Its application allows for more nuanced and flexible modeling, providing a powerful tool for statistical inference and prediction.
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Etymology of BAYESIAN STATISTICS
The word "Bayesian" in "Bayesian statistics" is derived from the name of Thomas Bayes, an 18th-century English mathematician and Presbyterian minister. While Bayes did not explicitly develop the field of statistics, he is famous for his formulation of what is now known as Bayes' theorem, a fundamental concept in probabilistic inference that serves as the foundation of Bayesian statistics.
Bayes' theorem provides a mathematical framework for updating our beliefs or probabilities about events or hypotheses based on new evidence. In the late 18th century, Pierre-Simon Laplace expanded upon Bayes' work and developed statistical principles that laid the foundation for Bayesian statistics.
The term "Bayesian statistics" itself emerged later, in the 20th century, to refer to a statistical approach that incorporates Bayes' theorem and emphasizes the use of prior knowledge or prior beliefs to update and refine statistical inferences.
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