因果推断之路径既黑暗又危险
但是计量经济学是很厉害的武器
当自然界给你带来偶然的随机分配时
使用气势汹汹与灵活多變的
工具变量进行攻击
[]
随机试验是完成
“其他条件不变”的比较
的最可靠途径
但我们经常无法使用
这个功能强大的工具
但是有时候,随机是偶然发生的
这时候我们转向工具变量
—简称IV
工具变量
今天的课堂是IV两节课的第一节
我们的第一节IV课
从学校的故事开始
[]
特许学校是一些公立学校
不受日常学区监督
与教师工会合同约束
特许学校能否提高成绩
是美国教育改革史上
最重要的问题之一
最受欢迎的特许学校的申请人数
远多于学位
因此抽奖运决定了
谁家孩子可获录取
在学生争夺机会时需要面对很多风险
正如获奖纪录片“等待超人”中
所描述的那样
等待结果时会产生很多种情绪
别哭,你会让妈妈哭的
好吗?
特许学校真的能提供更好的教育吗?
评论家肯定会说"不是的"
他们会争辩说特许学校
能夠招募更好
更聪明或更主动的学生
因此以后结果的差异
反映了选择性偏差
等一下,这个似乎很容易
在抽奖活动中
我们会随机选择优胜者
因此只比较赢家和输家
- 很明显的
On the right track,卡马尔
但是特许学校的抽签安排
不会强迫孩子们进入
或离开特定的学校
他们随机分配了特许学校的学位
有些孩子很幸运
有些孩子不是
如果我们只是想知道特许学校
所带来的影响
我们可以将其视为随机试验
但是,我们只对特许学校
就学的影响
感兴趣
而对录取不感兴趣
并非所有获录取的学生
都会接受学位
IV将被录取为特许学校学生的影响
转变为实际就读特许学校的影响
- 太酷了
- 哦,太好了
让我们看一个例子
这是一所执行知识就是力量专案
的特许学校,或简称为KIPP
这所KIPP特许学校位于林恩
一座位于麻省海边的
褪色工业城镇
这所学校的申请者多于学位
因此他们要抽签来挑选学生
从2005年到2008年
共有371名四年级以及五年级生
参加了KIPP林恩的抽签
当中253名学生KIPP获录取
118名学生没有录取
一年后,获录取者的数学分数
比未获录取者更高
我们并不是试图弄清楚
获录取后是否会提高
你的数学水平
我们想知道参加KIPP
是否会使你的数学成绩改进
在253位获录取者中
实际上只有199位到KIPP上学
其他学生选择了传统的公立学校
同样,在118名未被录取的学生中
事实上有一些最终参加了KIPP
他们后来也获录取
那么,实际上参加KIPP
对考试成绩有何影响呢?
为什么我们不能只衡量
他们的数学成绩?
这是很好的问题
你将他们与谁进行比较呢?
那些没有参加的学生
上学率是随机的吗?
- 不是啊
- 选择性偏差
- 对啊
- 什么?
The KIPP offers are random so we can be confident
of ceteris paribus,
但上学率不是随机的
The choice to accept the offer
might be due to characteristics
that are related
to math performance --
say, for example,
that dedicated parents
are more likely
to accept the offer.
Their kids are also more likely
to do better in math,
regardless of school.
- [Student] Right.
- [Instructor] IV converts
the offer effect
into the effect of KIPP attendance,
adjusting for the fact
that some winners go elsewhere
and some losers manage
to attend KIPP anyway.
Essentially, IV takes
an incomplete randomization
and makes the appropriate
adjustments.
How? IV describes a chain reaction.
Why do offers affect achievement?
Probably because they affect
charter attendance,
and charter attendance
improves math scores.
The first link in the chain
called the first stage
is the effect of the lottery
on charter attendance.
The second stage is the link
between attending a charter
and an outcome variable --
in this case, math scores.
The instrumental variable,
or "instrument" for short,
is the variable that initiates
the chain reaction.
The effect of the instrument
on the outcome
is called the reduced form.
This chain reaction can be
represented mathematically.
We multiply the first stage,
the effect of winning
on attendance,
by the second stage,
the effect of attendance on scores.
And we get the reduced form,
the effect of winning
the lottery on scores.
The reduced form and first stage
are observable and easy to compute.
However, the effect of attendance
on achievement
is not directly observed.
This is the causal effect
we're trying to determine.
Given some important assumptions
we'll discuss shortly,
we can find the effect
of KIPP attendance
by dividing the reduced form
by the first stage.
This will become more clear
as we work through an example.
- [Student] Let's do this.
- A quick note on measurement.
We measure achievement
using standard deviations,
often denoted
by the Greek letter sigma (σ).
One σ is a huge move
from around the bottom 15%
to the middle of most
achievement distributions.
Even a ¼ or ½ σ difference is big.
- [Instructor] Now we're ready
to plug some numbers
into the equation
we introduced earlier.
First up, what's the effect
of winning the lottery
on math scores?
KIPP applicants' math scores
are a third of a standard deviation
below the state average
in the year before
they apply to KIPP.
But a year later, lottery winners
score right at the state average,
while the lottery losers
are still well behind
with an average score
around -0.36 σ.
The effect of winning the lottery
on scores is the difference
between the winners' scores
and the losers' scores.
Take the winners'
average math scores,
subtract the losers'
average math scores,
and you will have 0.36 σ.
Next up: what's the effect
of winning the lottery on attendance?
In other words,
if you win the lottery,
how much more likely
are you to attend KIPP
than if you lose?
First, what percentage
of lottery winners attend KIPP?
Divide the number of winners
who attended KIPP
by the total number
of lottery winners -- that's 78%.
To find the percentage
of lottery losers who attended KIPP,
we divide the number of losers
who attended KIPP
by the total number
of lottery losers -- that's 4%.
Subtract 4 from 78, and we find
that winning the lottery
makes you 74%
more likely to attend KIPP.
Now we can find
what we're really after --
the effect of attendance on scores,
by dividing 0.36 by 0.74.
Attending KIPP raises math scores
by 0.48 standard deviations
on average.
That's an awesome achievement gain,
equal to moving
from about the bottom third
to the middle
of the achievement distribution.
- [Student] Whoa, half a sig.
- [Instructor] These estimates
are for kids opting in
to the KIPP lottery,
whose enrollment status
is changed by winning.
That's not necessarily
a random sample
of all children in Lynn.
So we can't assume
we'd see the same effect
for other types of students.
- [Student] Huh.
- But this effect
on keen for KIPP kids
is likely to be a good indicator
of the consequences
of adding additional charter seats.
- [Student] Cool.
- [Student] Got it.
- IV eliminates selection bias,
but like all of our tools,
the solution builds on a set
of assumptions
not to be taken for granted.
First, there must be
a substantial first stage --
that is the instrumental variable,
winning or losing the lottery,
must really change the variable
whose effect we're interested in --
here, KIPP attendance.
In this case, the first stage
is not really in doubt.
Winning the lottery makes
KIPP attendance much more likely.
Not all IV stories are like that.
Second, the instrument
must be as good
as randomly assigned,
meaning lottery winners and losers
have similar characteristics.
This is the independence assumption.
Of course, KIPP lottery wins
really are randomly assigned.
Still, we should check for balance
and confirm that winners and losers
have similar family backgrounds,
similar aptitudes and so on.
In essence, we're checking
to ensure KIPP lotteries are fair
with no group of applicants
suspiciously likely to win.
Finally, we require
the instrument change outcomes
solely through
the variable of interest --
in this case, attending KIPP.
This assumption is called
the exclusion restriction.
- IV only works if you can satisfy
these three assumptions.
- I don't understand
the exclusion restriction.
How could winning the lottery
affect math scores
other than by attending KIPP?
- [Student] Yeah.
- [Instructor] Great question.
Suppose lottery winners
are just thrilled to win,
and this happiness motivates them
to study more and learn more math,
regardless of where
they go to school.
This would violate
the exclusion restriction
because the motivational effect
of winning is a second channel
whereby lotteries
might affect test scores.
While it's hard
to rule this out entirely,
there's no evidence
of any alternative channels
in the KIPP study.
- IV solves the problem
of selection bias
in scenarios like the KIPP lottery
where treatment offers are random
but some of those offered opt out.
This sort of intentional
yet incomplete random assignment
is surprisingly common.
Even randomized clinical trials
have this feature.
IV solves the problem
of non-random take-up
in lotteries or clinical research.
But lotteries are not the only source
of compelling instruments.
Many causal questions
can be addressed
by naturally occurring
as good as randomly
assigned variation.
Here's a causal question for you:
Do women who have children
early in their careers
suffer a substantial earnings penalty
as a result?
After all, women earn less than men.
We could, of course, simply compare
the earnings of women
with more and fewer children.
But such comparisons are fraught
with selection bias.
If only we could
randomly assign babies
to different households.
Yeah, right,
sounds pretty fanciful.
Our next IV story -- fantastic
and not fanciful --
illustrates an amazing,
naturally occurring instrument
for family size.
♪ [music] ♪
- [Instructor] You're on your way
to mastering econometrics.
Make sure this video sticks
by taking a few
quick practice questions.
Or, if you're ready,
click for the next video.
You can also check out
MRU's website for more courses,
teacher resources, and more.
♪ [music] ♪