Instrumental Variables
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The "Instrumental Variables" webinar, presented by Peter Lance, was the fifth and final webinar in a series of discussions on the popular MEASURE Evaluation manual, How Do We Know If a Program Made a Difference? A Guide to Statistical Methods for Program Impact Evaluation.
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Instrumental Variables
- 1. Peter M. Lance, PhD MEASURE Evaluation University of North Carolina at Chapel Hill April 13, 2017 Instrumental Variables
- 2. Peter M. Lance, PhD MEASURE Evaluation University of North Carolina at Chapel Hill April 13, 2017 Instrumental Variables: Too LATE for Experimental Compliance?
- 3. Peter M. Lance, PhD MEASURE Evaluation University of North Carolina at Chapel Hill April 13, 2017 Instrumental Variables: Too LATE for Experimental Compliance?
- 4. Peter M. Lance, PhD MEASURE Evaluation University of North Carolina at Chapel Hill April 13, 2017 Instrumental Variables: Too LATE for Experimental Compliance?
- 5. Peter M. Lance, PhD MEASURE Evaluation University of North Carolina at Chapel Hill April 13, 2017 Instrumental Variables: Too LATE for Experimental Compliance?
- 6. Peter M. Lance, PhD MEASURE Evaluation University of North Carolina at Chapel Hill April 13, 2017 Instrumental Variables: Too LATE for Experimental Compliance?
- 7. Peter M. Lance, PhD MEASURE Evaluation University of North Carolina at Chapel Hill April 13, 2017 Instrumental Variables: Too LATE for Experimental Compliance?
- 8. Peter M. Lance, PhD MEASURE Evaluation University of North Carolina at Chapel Hill April 13, 2017 Instrumental Variables: Too LATE for Experimental Compliance?
- 9. Peter M. Lance, PhD MEASURE Evaluation University of North Carolina at Chapel Hill April 13, 2017 Instrumental Variables: Too LATE for Experimental Compliance?
- 10. Peter M. Lance, PhD MEASURE Evaluation University of North Carolina at Chapel Hill April 13, 2017 Instrumental Variables: Too LATE for Experimental Compliance?
- 11. Peter M. Lance, PhD MEASURE Evaluation University of North Carolina at Chapel Hill April 13, 2017 Instrumental Variables: Too LATE for Experimental Compliance?
- 12. Global, five-year, $180M cooperative agreement Strategic objective: To strengthen health information systems β the capacity to gather, interpret, and use data β so countries can make better decisions and sustain good health outcomes over time. Project overview
- 13. Improved country capacity to manage health information systems, resources, and staff Strengthened collection, analysis, and use of routine health data Methods, tools, and approaches improved and applied to address health information challenges and gaps Increased capacity for rigorous evaluation Phase IV Results Framework
- 14. Global footprint (more than 25 countries)
- 15. β’ The program impact evaluation challenge β’ Randomization β’ Selection on observables β’ Within estimators β’ Instrumental variables
- 16. β’ The program impact evaluation challenge β’ Randomization β’ Selection on observables β’ Within estimators β’ Instrumental variables
- 19. YP ΞΌ X
- 20. YP ΞΌ X
- 21. YP ΞΌ X
- 22. YP ΞΌ X
- 23. YP ΞΌ X
- 24. YP ΞΌ X
- 25. YP ΞΌ Z X
- 26. YP ΞΌ Z X
- 27. YP ΞΌ Z X
- 28. YP ΞΌ Z X
- 29. YP ΞΌ Z X
- 30. YP ΞΌ Z X
- 31. YP ΞΌ Z X
- 32. YP ΞΌ Z X
- 33. Fascinating, right??? So what the heck does it all mean, and how would you implement it?
- 34. Fascinating, right??? So what the heck does it all mean, and how would you implement it?
- 35. π0 = π½0 + π½2 β π₯ + π½3 β π + π π1 = π½0 + π½1 + π½2 β π₯ + π½3 β π + π
- 36. π0 = π½0 + π½2 β π + π½3 β π + π π1 = π½0 + π½1 + π½2 β π + π½3 β π + π
- 37. π0 = π½0 + π½2 β π₯ + π½3 β π + π π1 = π½0 + π½1 + π½2 β π₯ + π½3 β π + π
- 38. π0 = π½0 + π½2 β π₯ + π½3 β π + πΊ π1 = π½0 + π½1 + π½2 β π₯ + π½3 β π + πΊ
- 39. π1 β π0 = π½0 + π½1 + π β π½0 + π = π½0 + π½1 + π β π½0 β π = π½1
- 40. π1 β π0 = π½0 + π½1 + π½2 β π₯ + π½3 β π + π β π½0 + π½2 β π₯ + π½3 β π + π = π½0 + π½1 + π β π½0 β π = π½1
- 41. π1 β π0 = π½1
- 42. π = π β π1 + 1 β π β π0 = π β π½0 + π½1 + π + 1 β π β π½0 + π = π β π½0 + π β π½1 + π β π +π½0 + π β π β π½0 β π β π = π½0 + π β π½1 + π
- 43. π = π β π1 + 1 β π β π0 = π β π½0 + π½1 + π½2 β π₯ + π½3 β π + π + 1 β π β π½0 + π½2 β π₯ + π½3 β π + π = π β π½0 + π β π½1 + π β π +π½0 + π β π β π½0 β π β π
- 44. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π
- 45. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π
- 46. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΈ πΎ1 = π½1
- 47. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΈ πΎ1 = π½1 ?
- 48. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΈ πΎ1 = π½1 ?
- 49. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΈ πΎ1 = π½1 ?
- 50. YP ΞΌ X
- 51. YP ΞΌ X
- 52. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΈ πΎ1 = π½1 ?
- 53. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΈ πΎ1 = π½1 ?
- 54. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΈ πΎ1 = π½1 ?
- 55. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΈ πΎ1 β π½1
- 56. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΈ πΎ1 β π½1
- 57. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΈ πΎ1 β π½1
- 58. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΈ πΎ1 β π½1
- 59. Cost of Participation πΆ = π0 + π1 β π₯ + π2 β π + π3 β π§ + π
- 60. Cost of Participation πΆ = π0 + π1 β π + π2 β π + π3 β π§ + π
- 61. Cost of Participation πΆ = π0 + π1 β π₯ + π2 β π + π3 β π§ + π
- 62. Cost of Participation πΆ = π0 + π1 β π₯ + π2 β π + π3 β π + π
- 63. Cost of Participation πΆ = π0 + π1 β π₯ + π2 β π + π3 β π§ + πΌ
- 64. Benefit-Cost>0 π1 β π0 β C > 0 π½1 β πΆ > 0 π½1 β π0 + π1 β π₯ + π2 β π + π3 β π§ + π > 0
- 65. Benefit-Cost>0 π1 β π0 β C > 0 π½1 β πΆ > 0 π½1 β π0 + π1 β π₯ + π2 β π + π3 β π§ + π > 0
- 66. Benefit-Cost>0 π1 β π0 β C > 0 π½1 β πΆ > 0 π½1 β π0 + π1 β π₯ + π2 β π + π3 β π§ + π > 0
- 67. Benefit-Cost>0 π1 β π0 β C > 0 π½1 β πΆ > 0 π½1 β π0 + π1 β π₯ + π2 β π + π3 β π§ + π > 0
- 68. π₯ π π π π§ π
- 69. π₯ π π π π§ π
- 70. YP ΞΌ X
- 71. Benefit-Cost>0 π1 β π0 β C > 0 π½1 β πΆ > 0 π½1 β π0 + π1 β π₯ + π2 β π + π3 β π§ + π > 0
- 72. π₯ π π π π§ π
- 73. π0 = π½0 + π½2 β π₯ + π½3 β π + π π1 = π½0 + π½1 + π½2 β π₯ + π½3 β π + π
- 74. π = π β π1 + 1 β π β π0 = π β π½0 + π½1 + π +
- 75. π = π· β π1 + 1 β π· β π0 = π β π½0 + π½1 + π +
- 76. YP ΞΌ Z X
- 77. Benefit-Cost>0 π1 β π0 β C > 0 π½1 β πΆ > 0 π½1 β π0 + π1 β π₯ + π2 β π + π3 β π§ + π > 0
- 78. π½1 β π0 + π1 β π₯ + π2 β π + π3 β π§ + π > 0 π = π0 + π1 β π₯ + π2 β π§ + π
- 79. π½1 β π0 + π1 β π₯ + π2 β π + π3 β π§ + πΌ > 0 π = π0 + π1 β π₯ + π2 β π§ + π
- 80. π½1 β π0 + π1 β π₯ + π2 β π + π3 β π§ + π > 0 π = π0 + π1 β π₯ + π2 β π§ + π
- 81. π½1 β π0 + π1 β π₯ + π2 β π + π3 β π§ + π > 0 π = π0 + π1 β π₯ + π2 β π§ + π
- 82. π½1 β π0 + π1 β π₯ + π2 β π + π3 β π§ + π > 0 πβ = π0 + π1 β π₯ + π2 β π§ + π
- 83. π½1 β π0 + π1 β π₯ + π2 β π + π3 β π§ + π > 0 ππ π = 1 = ππ₯π π0 + π1 β π₯ + π2 β π§ 1 + ππ₯π π0 + π1 β π₯ + π2 β π§
- 84. π½1 β π0 + π1 β π₯ + π2 β π + π3 β π§ + π > 0 π = π0 + π1 β π₯ + π2 β π§ + π
- 85. π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π π = π0 + π1 β π₯ + π2 β π§ + π
- 86. π = πΈ π + πΈ π β π· + πΈ π β π + πΊ π = π0 + π1 β π₯ + π2 β π§ + π
- 87. π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π π· = π π + π π β π + π π β π + π
- 88. π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π π = π0 + π1 β π₯ + π2 β π§ + π
- 89. π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π π = π0 + π1 β π₯ + π2 β π§ + π π
- 90. π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + πΊ π = π0 + π1 β π₯ + π2 β π§ + π π
- 91. π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + πΊ π = π0 + π1 β π₯ + π2 β π§ + π π
- 92. π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + πΊ π = π0 + π1 β π₯ + π2 β π§ + π π
- 93. π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + πΊ π = π0 + π1 β π₯ + π2 β π§ + π π¬( πΈ π) β π· π
- 95. Two-Stage Least Squares 1. Regress π on π₯ and π§ (i.e. estimate πs from π = π0 + π1 β π₯ + π2 β π§ + π) 2. Use the fitted/estimated model to predict participation: π = π0 + π1 β π₯ + π2 β π§ 3. Regress π on π and π₯
- 96. Two-Stage Least Squares 1. Regress π on π₯ and π§ (i.e. estimate πs from π = π0 + π1 β π₯ + π2 β π§ + π) 2. Use the fitted/estimated model to predict participation: π = π0 + π1 β π₯ + π2 β π§ 3. Regress π on π and π₯
- 97. Two-Stage Least Squares 1. Regress π on π₯ and π§ (i.e. estimate πs from π = π0 + π1 β π₯ + π2 β π§ + π) 2. Use the fitted/estimated model to predict participation: π = π0 + π1 β π₯ + π2 β π§ 3. Regress π on π and π₯
- 98. Two-Stage Least Squares 1. Regress π on π₯ and π§ (i.e. estimate πs from π = π0 + π1 β π₯ + π2 β π§ + π) 2. Use the fitted/estimated model to predict participation: π = π0 + π1 β π₯ + π2 β π§ 3. Regress π on π and π₯
- 99. Two-Stage Least Squares 1. Regress π on π₯ and π§ (i.e. estimate πs from π = π0 + π1 β π₯ + π2 β π§ + π) 2. Use the fitted/estimated model to predict participation: π = π0 + π1 β π₯ + π2 β π§ 3. Regress π on π and π₯
- 100. π = π0 + π1 β π₯ + π2 β π§ + π π2 = 0 π = π0 + π1 β π₯ + π π = π0 + π1 β π₯ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ -+ π
- 101. π = π0 + π1 β π₯ + π2 β π§ + π π2 = 0 π = π0 + π1 β π₯ + π π = π0 + π1 β π₯ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ -+ π
- 102. π = π0 + π1 β π₯ + π2 β π§ + π π2 = 0 π = π0 + π1 β π₯ + π π = π0 + π1 β π₯ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ -+ π
- 103. π = π0 + π1 β π₯ + π2 β π§ + π π2 = 0 π = π0 + π1 β π₯ + π π = π0 + π1 β π₯ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ -+ π
- 104. π = π0 + π1 β π₯ + π2 β π§ + π π2 = 0 π = π0 + π1 β π₯ + π π = π0 + π1 β π₯ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π -+ π
- 105. π = π0 + π1 β π₯ + π2 β π§ + π π2 = 0 π = π0 + π1 β π₯ + π π = π0 + π1 β π₯ π = πΎ0 + πΎ1 β ( π0 + π1 β π₯) + πΎ2 β π₯ + π -+ π
- 106. π = π0 + π1 β π₯ + π2 β π§ + π π2 = 0 π = π0 + π1 β π₯ + π π = π0 + π1 β π₯ π = πΎ0 + πΎ1 β π0 + πΎ1 β π1 β π₯ + πΎ2 β π₯ + π -+ π
- 107. π = π0 + π1 β π₯ + π2 β π§ + π π2 = 0 π = π0 + π1 β π₯ + π π = π0 + π1 β π₯ π = πΎ0 + πΎ1 β π0 + πΎ1 β π1 + πΎ2 β π₯ + π -+ π
- 108. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = πΏ0 + πΏ1 β π₯ + π where πΏ0 = πΎ0 + πΎ1 β π0 and πΏ1 = πΎ1 β π1 + πΎ2
- 109. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = πΏ0 + πΏ1 β π₯ + π where πΏ0 = πΎ0 + πΎ1 β π0 and πΏ1 = πΎ1 β π1 + πΎ2
- 110. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = πΏ0 + πΎ1 β π1 + πΎ2 β π₯ + π where πΏ0 = πΎ0 + πΎ1 β π0 and πΏ1 = πΎ1 β π1 + πΎ2
- 111. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = πΏ0 + πΎ1 β π1 β π₯ + πΎ2 β π₯ + π where πΏ0 = πΎ0 + πΎ1 β π0 and πΏ1 = πΎ1 β π1 + πΎ2
- 112. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = πΏ0 + πΏ11 β π₯ + πΏ12 β π₯ + π where πΏ0 = πΎ0 + πΎ1 β π0 and πΏ1 = πΎ1 β π1 + πΎ2
- 113. Two-Stage Least Squares π0 = π½0 + π½2 β π₯ + π½3 β π + π π1 = π½0 + π½1 + π½2 β π₯ + π½3 β π + π πΆ = π0 + π1 β π₯ + π2 β π + π3 β π§1 + π4 β π§2 + π
- 114. Two-Stage Least Squares 1. Regress π on π₯ and π§ (i.e. estimate πs from π = π0 + π1 β π₯ + π2 β π§1 + π3 β π§2 + π 2. Use the fitted/estimated model to predict participation: π = π0 + π1 β π₯ + π2 β π§1 + π3 β π§2 3. Regress π on π and π₯
- 115. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 116. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 117. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 118. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 119. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 120. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 121. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 122. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 123. Two-Stage Least Squares 1. Regress π on π₯ and π§ (i.e. estimate πs from π = π0 + π1 β π₯ + π2 β π§ + π) 2. Use the fitted/estimated model to predict participation: π = π0 + π1 β π₯ + π2 β π§ 3. Regress π on π and π₯
- 124. Two-Stage Least Squares π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΈ πΎ0 = π½1
- 126. Two-Stage Least Squares π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΈ πΎ0 β π½1
- 127. Two-Stage Least Squares π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΈ πΎ0 β π½1
- 128. ????!
- 129. Consistency ππππ πΎ1 = π½1 πππ πββ ππ πΎ1 β π½1 β₯ π = 0
- 130. Consistency ππππ πΎ1 = π½1 πππ πββ ππ πΎ1 β π½1 β₯ π = 0 = 0
- 133. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π
- 135. Some Big Take-Aways About IV/TSLS 1. More powerful instruments are better 2. Over-identification is (generally) your friend 3. Be careful about getting fancy with binary endogenous regressors and outcomes 4. Be careful about being LATE
- 136. Some Big Take-Aways About IV/TSLS 1. More powerful instruments are better 2. Over-identification is (generally) your friend 3. Be careful about getting fancy with binary endogenous regressors and outcomes 4. Be careful about being LATE
- 139. Anything
- 140. Literally anything
- 142. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 143. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 144. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§1 + π3 β π§2 + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 145. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§1 + π3 β π§2 + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 147. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 148. πππ π½1 β πΎ1 π
- 149. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§1 + π3 β π§2 + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 150. Some Big Take-Aways About IV/TSLS 1. More powerful instruments are better 2. Over-identification is (generally) your friend 3. Be careful about getting fancy with binary endogenous regressors and outcomes 4. Be careful about being LATE
- 151. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 152. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§1 + π3 β π§2 + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 153. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§1 + π3 β π§2 + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 155. Some Big Take-Aways About IV/TSLS 1. More powerful instruments are better 2. Over-identification is (generally) your friend 3. Be careful about getting fancy with binary endogenous regressors and outcomes 4. Be careful about being LATE
- 156. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 157. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 158. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 159. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 160. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 161. Some Big Take-Aways About IV/TSLS 1. More powerful instruments are better 2. Over-identification is (generally) your friend 3. Be careful about getting fancy with binary endogenous regressors and outcomes 4. Be careful about being LATE
- 162. π0 = π½0 + π½2 β π₯ + π½3 β π + π π1 = π½0 + π½1 + π½2 β π₯ + π½3 β π + π
- 163. ππ 0 = π½0 + π½2 β π₯π + π½3 β ππ + ππ ππ 1 = π½0 + π½1 + π½2 β π₯π + π½3 β ππ + ππ
- 164. ππ 0 = π½0 + π½2 β π₯π + π½3 β ππ + ππ ππ 1 = π½0 + π½1π + π½2 β π₯π + π½3 β ππ + ππ
- 165. ππ 0 = π½0 + π½2 β π₯π + π½3 β ππ + ππ ππ 1 = π½0 + π½1π + π½2 β π₯π + π½3 β ππ + ππ
- 166. ππ 1 β ππ 0 = π½0 + π½1 + π β π½0 + π = π½0 + π½1 + π β π½0 β π = π½1
- 167. ππ 1 β ππ 0 = π½0 + π½1π + π½2 β π₯π + π½3 β ππ + ππ β π½0 + π½2 β π₯π + π½3 β ππ + ππ = π½0 + π½1 + π β π½0 β π = π½1
- 170. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 171. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 172. Two-Stage Least Squares π = π0 + π1 β π₯ + π π β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 173. The Three LATE Types 1. Always Takers- Always Participate 2. Never Takers-Never Participate 3. Compliers- Comply with their instrumental βassignmentβ
- 174. The Three LATE Types 1. Always Takers- Always Participate 2. Never Takers-Never Participate 3. Compliers- Comply with their instrumental βassignmentβ
- 175. Benefit-Cost>0 ππ 1 β ππ 0 β πΆπ > 0 π½1π β πΆπ > 0 π½1π β π0 + π1 β π₯π + π2 β ππ + π3 β π§π + ππ > 0
- 176. π§π = 1 ππ 1 β ππ 0 β πΆπ > 0 π§π = 0 ππ 1 β ππ 0 β πΆπ β€ 0
- 177. π§π = 1 ππ 1 β ππ 0 β πΆπ > 0 π§π = 0 ππ 1 β ππ 0 β πΆπ > 0
- 178. π§π = 1 ππ 1 β ππ 0 β πΆπ β€ 0 π§π = 0 ππ 1 β ππ 0 β πΆπ β€ 0
- 179. Two-Stage Least Squares π = π0 + π1 β π₯ + π2 β π§ + π π = π0 + π1 β π₯ + π2 β π§ π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π πΎ0, πΎ1, and πΎ2
- 181. Month Day 1969 1970 Month Day 1969 1970 3 7 122 141 9 11 158 288 8 22 339 250 11 1 19 243 4 18 90 138 6 4 20 42 7 12 15 257 7 13 42 349 5 9 197 357 12 30 3 192
- 182. Month Day 1969 1970 Month Day 1969 1970 3 7 122 141 9 11 158 288 8 22 339 250 11 1 19 243 4 18 90 138 6 4 20 42 7 12 15 257 7 13 42 349 5 9 197 357 12 30 3 192
- 183. The Three LATE Types 1. Always Takers- Always Participate 2. Never Takers-Never Participate 3. Compliers- Comply with their instrumental βassignmentβ
- 185. The Three LATE Types 1. Always Takers- Always Participate 2. Never Takers-Never Participate 3. Compliers- Comply with their instrumental βassignmentβ
- 187. Month Day 1969 1970 Month Day 1969 1970 3 7 122 141 9 11 158 288 8 22 339 250 11 1 19 243 4 18 90 138 6 4 20 42 7 12 15 257 7 13 42 349 5 9 197 357 12 30 3 192
- 191. π₯ β€ π π₯ > π
- 199. π0 = π½0 + π½2 β π₯ + π½3 β π + π π1 = π½0 + π½1 + π½2 β π₯ + π½3 β π + π π = π β π1 + 1 β π β π0 π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π
- 200. π0 = π½0 + π½2 β π₯ + π½3 β π + π π1 = π½0 + π½1 + π½2 β π₯ + π½3 β π + π π = π β π1 + 1 β π β π0 π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π
- 201. π0 = π½0 + π½2 β π₯ + π½3 β π + π π1 = π½0 + π½1 + π½2 β π₯ + π½3 β π + π π = π β π1 + 1 β π β π0 π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π
- 203. A βDiscontinuityβ πΌ π₯ β€ π = P
- 204. A βDiscontinuityβ πΌ π₯ β€ π = P
- 205. π0 = π½0 + π½2 β π₯ + π½3 β π + π π1 = π½0 + π½1 + π½2 β π₯ + π½3 β π + π π = π β π1 + 1 β π β π0 π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π
- 206. π0 = π½0 + π½2 β π₯ + π½3 β π + π π1 = π½0 + π½1 + π½2 β π₯ + π½3 β π + π π = π β π1 + 1 β π β π0 π = π½0 + π½1 β π°(π β€ π) + π½2 β π₯ + π½3 β π + π
- 208. Cost of Participation πΆ = π0 + Ξ© β 1 β πΌ π₯ β€ π + π1 β π₯ +π2 β π + π3 β π§ + π
- 209. Cost of Participation πΆ = π0 + π΄ β π β π° π β€ π + π1 β π₯ +π2 β π + π3 β π§ + π
- 210. Cost of Participation πΆ = π0 + πΊ β 1 β πΌ π₯ β€ π + π1 β π₯ +π2 β π + π3 β π§ + π πΆ = π0 + π1 β π₯ + π2 β π + π3 β π§ + π
- 211. Cost of Participation πΆ = π0 + πΊ β 1 β πΌ π₯ β€ π + π1 β π₯ +π2 β π + π3 β π§ + π πΆ = π0 + π1 β π₯ + π2 β π + π3 β π§ + π
- 212. Benefit-Cost>0 π1 β π0 β πΆ > 0 π½1 β πΆ > 0
- 213. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π
- 214. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π
- 215. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π π = πΎ0 + πΎ1 β π + π
- 216. π = π½0 + π½1 β π + π½2 β π₯ + π½3 β π + π π = πΎ0 + πΎ1 β π + πΎ2 β π₯ + π
- 217. Benefit-Cost>0 π1 β π0 β πΆ > 0 π½1 β πΆ > 0
- 218. Benefit-Cost>0 π1 β π0 β πΆ > 0 π· π β πͺ > 0
- 219. Cost of Participation πΆ = π0 + πΊ β 1 β πΌ π₯ β€ π + π1 β π₯ +π2 β π + π3 β π§ + π πΆ = π0 + π1 β π₯ + π2 β π + π3 β π§ + π
- 220. Cost of Participation πΆ = π0 + π΄ β 1 β πΌ π₯ β€ π + π1 β π₯ +π2 β π + π3 β π§ + π πΆ = π0 + π1 β π₯ + π2 β π + π3 β π§ + π
- 221. Cost of Participation πΆ = π0 + π΄ β 1 β πΌ π₯ β€ π + π1 β π₯ +π2 β π + π3 β π§ + π πͺ = π π + π π β π + π π β π + π π β π + πΌ
- 222. Two-Stage Least Squares 1. Regress π on π₯ and π§ (i.e. estimate πs from π = π0 + π1 β π₯ + π2 β π§ + π) 2. Use the fitted/estimated model to predict participation: π = π0 + π1 β π₯ + π2 β π§ 3. Regress π on π and π₯
- 223. π§ = πΌ π₯ β€ π
- 224. π§ = πΌ π₯ β€ π
- 225. Links: The manual: http://www.measureevaluation.org/resources/publications/ms- 14-87-en The webinar introducing the manual: http://www.measureevaluation.org/resources/webinars/metho ds-for-program-impact-evaluation My email: pmlance@email.unc.edu
- 226. MEASURE Evaluation is funded by the U.S. Agency for International Development (USAID) under terms of Cooperative Agreement AID-OAA-L-14-00004 and implemented by the Carolina Population Center, University of North Carolina at Chapel Hill in partnership with ICF International, John Snow, Inc., Management Sciences for Health, Palladium Group, and Tulane University. The views expressed in this presentation do not necessarily reflect the views of USAID or the United States government. www.measureevaluation.org