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Hypotheses Testing

Hypotheses Testing

statisticsmatt via YouTube Direct link

Illustration of a 1-sided UMP Test in the Normal Setting

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Illustration of a 1-sided UMP Test in the Normal Setting

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Hypotheses Testing

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  1. 1 Hypotheses Testing: Statistical Nomenclature
  2. 2 Hypotheses Testing: Minimizing a linear combination of the type I and II errors
  3. 3 Hypotheses Testing: Neyman-Pearson Lemma with an Example
  4. 4 Hypotheses Testing: Simple vs Simple Hypotheses for a Normal Distribution
  5. 5 Hypotheses Testing: Simple vs Simple Hypotheses for Gamma and Poisson Distributions
  6. 6 Hypotheses Testing: R Simulation of Simple vs Simple Testing for a Gamma and Poisson Distributions
  7. 7 Testing for a Biased Die with an Approximate Alpha Level Test
  8. 8 Prove Pearson's Goodness of Fit Test Statistic limits to a Chi-sq Distribution
  9. 9 R Simulation Comparing 2 Tests. Goodness of Fit versus Normal Approximation to Test a Biased Die.
  10. 10 Bayesian Test for Simple vs Simple Hypotheses
  11. 11 Minimax Test for Simple vs Simple Hypotheses
  12. 12 Example with Most Powerful, Bayesian, and Minimax Test with Normal Data
  13. 13 Example with Gamma Data - Most Powerful, Bayesian, and Minimax Tests
  14. 14 Monotone Likelihood Ratio Property
  15. 15 Monotone Likelihood Ratio - Examples
  16. 16 Hypergeometric Distribution has the monotone likelihood ratio property
  17. 17 Illustration of a 1-sided UMP Test in the Normal Setting
  18. 18 The Karlin–Rubin Theorem for Uniformly Most Powerful 1 sided Tests
  19. 19 Corollary to the Neyman-Pearson Lemma: alpha less than power
  20. 20 Illustration of a 2 sided UMP test (part 1 of 3)
  21. 21 Illustration of a 2 sided UMP test (part 2 of 3)
  22. 22 Illustration of a 2 sided UMP test (part 3 of 3)
  23. 23 2-sided UMP Tests in the 1-Parameter Exponential Family (Part 1 of 8): Normal Distribution
  24. 24 2-sided UMP Tests in the 1-Parameter Exponential Family (Part 2 of 8): Using R Normal Distribution
  25. 25 2-sided UMP Tests in the 1-Parameter Exponential Family (Part 3 of 8): Chi-square Distribution
  26. 26 2-sided UMP Tests in the 1-Parameter Exponential Family (Part 4 of 8): Using R Chi-sq Distribution
  27. 27 2-sided UMP Tests in the 1-Parameter Exponential Family (Part 5 of 8): Binomial Distribution
  28. 28 2-sided UMP Tests in the 1-Parameter Exponential Family (Part 6 of 8): Using R Binomial Distribution
  29. 29 Comparing Adverse Event Rates Between Treatment Arms
  30. 30 2-sided UMP Tests in the 1-Parameter Exponential Family (Part 7 of 8): Poisson Distribution
  31. 31 2-sided UMP Tests in the 1-Parameter Exponential Family (Part 8 of 8): Using R Poisson Distribution
  32. 32 A Generalization of the Neyman-Pearson Lemma

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