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ENDOGENEITY - SIMULTANEITY

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ENDOGENEITY - SIMULTANEITY Development Workshop * Talk about matching methods: can do bins for all characteristics. PSM reduces the dimensionality. – PowerPoint PPT presentation

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Title: ENDOGENEITY - SIMULTANEITY


1
ENDOGENEITY - SIMULTANEITY
  • Development
  • Workshop

2
What is endogeneity and why we do not like it?
REPETITION
  • Three causes
  • X influences Y, but Y reinforces X too
  • Z causes both X and Y fairly contemporaneusly
  • X causes Y, but we cannot observe X and Z (which
    we observe) is influenced by X but also by Y
  • Consequences
  • No matter how many observations estimators
    biased (this is called inconsistent)
  • Ergo whatever point estimates we find, we cant
    even tell if they are positive/negative/significan
    t, because we do not know the size of bias no
    way to estimate the size of bias

3
The magic of ceteris paribus
  • Each regression is actually ceteris paribus
  • Problem data may be at odds with ceteris paribus
  • Examples?

4
Problems with Inferring Causal Effects from
Regressions
  • Regressions tell us about correlations but
    correlation is not causation
  • Example Regression of whether currently have
    health problem on whether have been in hospital
    in past year
  •  HEALTHPROB       Coef.   Std. Err.      t   
    ---------------------------------------------
        PATIENT     .262982   .0095126   
    27.65          _cons     .153447    .003092   
    49.63  
  • Do hospitals make you sick? a causal effect

5
The problem in causal inference in case of
simultaneity
Confounding Influence
Treatment
Outcome
6
Any solutions?
Confounding Influence
Treatment
Outcome
7
Instrumental Variables solution
Confounding Influence
Treatment
Outcome
Instrumental Variable(s)
8
Fixed Effects Solution (DiD does pretty much the
same)
Fixed Influences
Confounding Influence
Treatment
Outcome
9
Short motivating story ALMPs in Poland
  • Basic statement 50 of unemployed have found
    employment because of ALMPs
  • Facts
  • 50 of whom? only those, who were treated (only
    those were monitored)
  • only 90 of treated completed the programmes
  • of those, who completed, indeed 50 work, but
    only 60 of these who work say it was because of
    the programme
  • So how many actually employed because of the
    programme?

10
Short motivating story ALMPs in Poland
11
Basic problems in causal inference
  • Compare somebody before and after
  • If they were different already before, the
    differential will be wrongly attributed to
    treatment
  • can we measure/capture this inherent difference?
  • does it stay unchanged before and after?
  • what if we only know after?
  • If the difference stays the same gt DiD estimator
    gt assumption that cannot be tested for
  • If the difference cannot be believed to stay the
    same?

12
Faked counterfactual or generating a paralel world
  • MEDICINE takes control groups people as sick,
    who get a different treatment or a placebo gt
    experimenting
  • What if experiment impossible?

13
What if experiment impossble?
Only cross-sectional data
Panel data
Instrumental variables
Propensity Score Matching DiD
Before After Estimators
Propensity Score Matching
Difference in Difference Estimators (DiD)
Regression Discontinuity Design
14
Propensity Score Matching
Confounding Influence
Treatment
Treatment
Outcome
15
Propensity score matching
Group Y1 Y0
Treated (D1) Observed counterfactual (does not exist)
Nontreated (D0) counterfactual (does not exist) observed
  • Average treatment effect
  • E(Y)E(Y1-Y0)E(Y1)-Y0
  • Average treatment effect for the untreated
  • E(Y1-Y0D0)E(Y1D0)-E(Y0D0)
  • Average treatment effect for the treated (ATT)
  • E(Y1-Y0D1)E(Y1D1)-E(Y0D1)

16
Propensity Score Matching
  • Idea
  • Compares outcomes of similar units where the only
    difference is treatment discards the rest
  • Example
  • Low ability students will have lower future
    achievement, and are also likely to be retained
    in class
  • Naïve comparison of untreated/treated students
    creates bias, where the untreated do better in
    the post period
  • Matching methods make the proper comparison
  • Problems
  • If similar units do not exist, cannot use this
    estimator

17
How to get PSM estimator?
  • First stage run treatment on observable
    characteristics
  • Second stage estimate the probability of
    treatment
  • Third stage compare results of those treated
    and similar non-treated (statistical twinns)
  • The less similar they are, the less likely they
    should be compared one with another

18
The obtained propensity score is irrelevant (as
long as consistent)
  • NEAREST NEIGHBOR (NN)
  • Pros gt tzw. 11
  • Cons gt if 11 does not exist, completely
    senseless

19
The obtained propensity score is irrelevant (as
long as consistent)
  • CALIPER/RADIUS MATCHING(NN)
  • Pros gt more elastic than NN
  • Cons gt who specifies the radius/caliper?

20
The obtained propensity score is irrelevant (as
long as consistent)
  • Stratification and Interval
  • Pros gt eliminates discretion in radius/caliper
    choice
  • Cons gt within strata/interval, units dont have
    to be similar
  • (some people say 10 strata is ql)

21
The obtained propensity score is irrelevant (as
long as consistent)
  • KERNEL MATCHING (KM)
  • Pros gt uses always all observations
  • Cons gt need to remember about common support

Treatment Control





22
What is common support?
  • Distributions of pscore may differ substantially
    across units
  • Only sensible solutions!

23
Real world examples
24
Next week practical excercise
  • Read the papers posted on the web
  • I will post one that we will replicate soon
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