Bibliography:

1. ​ ‘statistics’ tag

2. ​ Can You Unsort Lists for Diversity?

3. ​ Acne: a good Quantified Self topic

4. ​ Statistical Notes

5. ​ A/B testing long-form readability on Gwern.net

6. ​ Banner Ads Considered Harmful

7. ​ Magnesium Self-Experiments

8. ​ Embryo Selection For Intelligence

9. ​ Redshift sleep experiment

10. ​ The Power of Twins: The Scottish Milk Experiment

11. ​ Genius Revisited Revisited

12. ​ LSD microdosing RCT

13. ​ Embryo editing for intelligence

14. ​ History of Iterated Embryo Selection

15. ​ Nootropics

16. ​ Life Extension Cost-Benefits

17. ​ The Morality of Sperm Donation

18. ​ Zeo sleep self-experiments

19. ​ Lunar circadian rhythms

20. ​ Caffeine wakeup experiment

21. ​ Candy Japan’s new box A/B test

22. ​ Diet Variance: Soylent study

23. ​ Weather and My Productivity

24. ​ Revisiting Randomization with the Cube Method

25. ​ Impossible Hypotheses and Effect-Size Limits

26. ​ How Many Participants Do I Need to Test an Interaction? Conducting an Appropriate Power Analysis and Achieving Sufficient Power to Detect an Interaction

27. ​ Replicable brain-phenotype associations require large-scale neuroimaging data

28. ​ Identification and analysis of individuals who deviate from their genetically-predicted phenotype

29. ​ The Cost of Imbalance in Clinical Trials

30. ​ Are Most Published Criminological Research Findings Wrong? Taking Stock of Criminological Research using a Bayesian Simulation Approach

31. ​ The Phenotype-Genotype Reference Map: Improving biobank data science through replication.

32. ​ Optimality of Matched-Pair Designs in Randomized Controlled Trials

33. ​ Statistical-Significance tests for R² of out-of-sample prediction using polygenic scores

34. ​ Reproducible brain-wide association studies require thousands of individuals

35. ​ Policy Learning and Evaluation with Randomized Quasi-Monte Carlo

36. ​ Which Findings Should Be Published?

37. ​ The Significance Filter, the Winner’s Curse and the Need to Shrink

38. ​ Is Early Blindness Protective of Psychosis or Are We Turning a Blind Eye to the Lack of Statistical Power?

39. ​ Is the FDA too conservative or too aggressive?: A Bayesian decision analysis of clinical trial design

40. ​ Exome Sequencing of Finnish Isolates Enhances Rare-Variant Association Power

41. ​ Statistical power of clinical trials has increased whilst effect size remained stable: an empirical analysis of 137,032 clinical trials between 1975–2017

42. ​ The Power of Bias in Economics Research

43. ​ What exactly is ‘N’ in cell culture and animal experiments?

44. ​ Empirical assessment of published effect sizes and power in the recent cognitive neuroscience and psychology literature

45. ​ Refiltering hypothesis tests to control sign error

46. ​ Don’t Fight the Power (analysis)

47. ​ 459c36c4233eaf3423dc2dd45d45149b5fb702f6.html

48. ​ An implantable microdevice to perform high-throughput in vivo drug sensitivity testing in tumors

49. ​ The Power of Optimization Over Randomization in Designing Experiments Involving Small Samples

50. ​ Small Telescopes: Detectability and the Evaluation of Replication Results

51. ​ On the genetic architecture of intelligence and other quantitative traits

52. ​ Trap of trends to statistical-significance: likelihood of near-statistically-significant p-values becoming more statistically-significant with extra data

53. ​ Replicability and robustness of genome-wide-association studies for behavioral traits

54. ​ Impact of Measurement Error on Testing Genetic Association with Quantitative Traits

55. ​ On the Near Impossibility of Measuring the Returns to Advertising

56. ​ Improving the sensitivity of online controlled experiments by utilizing pre-experiment data

57. ​ Rerandomization to improve covariate balance in experiments

58. ​ Scale Coarseness as a Methodological Artifact: Correcting Correlation Coefficients Attenuated From Using Coarse Scales

59. ​ Should we take measurements at an intermediate design point?

60. ​ Most Published Research Findings Are False—But a Little Replication Goes a Long Way

61. ​ Counterbalancing in the Design of Experiments

62. ​ 35033ad72f8168a64435fd29e104d684c4ef516b.html

63. ​ Computational Analysis of Lifespan Experiment Reproducibility

64. ​ Analyzing DeepMind’s Probabilistic Methods for Evaluating Agent Capabilities

65. ​ 40049512d0967d342a92bba8bf64804109d42feb.html

66. ​ From Classical Methods to Generative Models: Tackling the Unreliability of Neuroscientific Measures in Mental Health Research

67. ​ Optimal Design in Psychological Research

68. ​ 2016-owen-figure3-simulationshowingextremelylargesignandmagnitudeerrorwhenstatisticalpowerissmall.png

69. ​ 2015-bertsimas-figure5-muchlargerstatisticalpowertodetectcausaleffectsofoptimizedbalancesofsamplesvssimplerandomization.jpg

70. ​ https://blogs.worldbank.org/impactevaluations/seven-ways-improve-statistical-power-your-experiment-without-increasing-n

71. ​ https://mauricio-romero.com/pdfs/papers/Factorial%20Designs%20(Current%20WP).pdf

72. ​ c546fd09ac36d5349819276f52cf17e27a01af89.pdf

73. ​ https://onlinelibrary.wiley.com/doi/full/10.1111/joes.12598

74. ​ https://replicationindex.com/2023/01/08/which-social-psychologists-can-you-trust/

75. ​ https://statmodeling.stat.columbia.edu/2014/11/17/power-06-looks-like-get-used/

76. ​ https://statmodeling.stat.columbia.edu/2023/11/09/you-need-16-times-the-sample-size-to-estimate-an-interaction-than-to-estimate-a-main-effect-explained/

77. ​ https://www.quantamagazine.org/mathematicians-find-hidden-structure-in-a-common-type-of-space-20230412/

78. ​ https://x.com/MatthewBJane/status/1734711959528845351

79. ​ Impossible Hypotheses and Effect-Size Limits

80. ​ https%253A%252F%252Fjournals.sagepub.com%252Fdoi%252Ffull%252F10.1177%252F25152459231197605.html

81. ​ How Many Participants Do I Need to Test an Interaction? Conducting an Appropriate Power Analysis and Achieving Sufficient Power to Detect an Interaction

82. ​ https%253A%252F%252Fjournals.sagepub.com%252Fdoi%252Ffull%252F10.1177%252F25152459231178728.html

83. ​ Replicable brain-phenotype associations require large-scale neuroimaging data

84. ​ Abdel Abdellaoui

85. ​ %252Fdoc%252Fpsychology%252Fneuroscience%252F2023-liu-2.pdf.html

86. ​ Are Most Published Criminological Research Findings Wrong? Taking Stock of Criminological Research using a Bayesian Simulation Approach

87. ​ https%253A%252F%252Fosf.io%252Fmhv8f%252F.html

88. ​ Reproducible brain-wide association studies require thousands of individuals

89. ​ %252Fdoc%252Fpsychology%252Fneuroscience%252F2022-marek.pdf.html

90. ​ The Power of Bias in Economics Research

91. ​ %252Fdoc%252Fstatistics%252Fpower-analysis%252F2017-ioannidis.pdf.html

92. ​ The Power of Optimization Over Randomization in Designing Experiments Involving Small Samples

93. ​ %252Fdoc%252Fstatistics%252Fpower-analysis%252F2015-bertsimas.pdf.html

94. ​ Scale Coarseness as a Methodological Artifact: Correcting Correlation Coefficients Attenuated From Using Coarse Scales

95. ​ %252Fdoc%252Fstatistics%252Fpower-analysis%252F2009-aguinis.pdf.html

96. Wikipedia Bibliography:

    1. ​ All-Pairs Testing

    2. ​ One-Tailed and Two-Tailed Tests

    3. ​ Statistical Power

    4. ​ Repeated Measures Design

    5. ​ Room Square

    6. ​ UK Biobank

    7. ​ William Foran

    8. ​ Thomas E. Nichols

    9. ​ Beatriz Luna

    10. ​ John Ioannidis

    11. ​ Dimitris Bertsimas

    12. ​ Herman Aguinis