synthetic_control | R Documentation |
synthetic_control()
declares the input data frame for use in the synthetic
control method. Allows for the specification of the panel units along with
the intervention unit and time (treated
). All units that are not the
designated treated units are entered into the donor pool from which the
synthetic control is generated. All time points prior and equal to the
intervention time are designated as the pre-intervention period; and all time
periods after are the post-intervention period.
synthetic_control(
data = NULL,
outcome = NULL,
unit = NULL,
time = NULL,
i_unit = NULL,
i_time = NULL,
generate_placebos = TRUE
)
data |
panel data frame in long format (i.e. unit of analysis is
unit-time period, such as country-year) containing both treated and control
donor pool units. All units/time periods that are not desired to be in the
donor should be excluded prior to passing to |
outcome |
Name of the outcome variable. Outcome variable should be a continuous measure that is observed across multiple time points. |
unit |
Name of the case unit variable in the panel data. |
time |
Name of the time unit variable in the panel data. |
i_unit |
Name of the treated case unit where the intervention occurred. |
i_time |
Name of the treated time period when the intervention occurred. |
generate_placebos |
logical flag requesting that placebo versions of the data be generated for downstream inferential methods. Generates a version of the nested data where each control unit is the intervention unit. Default is TRUE. |
Note that synthetic_control()
also allows for the simultaneous generation
of placebo units (i.e. units where the treated unit is one of the controls).
The addition of the placebo units increases computation time (as a synthetic
control needs to be generated for each placebo unit) but it allows for
inference as outlined in Abadie et al. 2010.
tbl_df
with nested fields containing the following:
.id
: unit id for the intervention case (this will differ when a placebo
unit).
.placebo
: indicator field taking on the value of 1 if a unit is a
placebo unit, 0 if it's the specified treated unit.
.type
: type of the nested data construct: treated
or controls
.
Keeps tract of which data construct is located in .outcome
field.
.outcome
: nested data construct containing the outcome variable
configured for the sythnetic control method. Data is configured into a wide
formate for the optimization task.
.original_data
: original impute data filtered by treated or control
units. This allows for easy processing down stream when generating
predictors.
.meta
: stores information regarding the unit and time index, the
treated unit and time and the name of the outcome variable. Used downstream
in subsequent functions.
############################
###### Basic Example #######
############################
# Smoking example data
data(smoking)
# initial the synthetic control object
smoking_out <-
smoking %>%
synthetic_control(outcome = cigsale,
unit = state,
time = year,
i_unit = "California",
i_time = 1988,
generate_placebos= FALSE)
# data configuration
dplyr::glimpse(smoking_out)
# Grap the organized outcome variables
smoking_out %>% grab_outcome(type = "treated")
smoking_out %>% grab_outcome(type = "controls")
###################################
####### Full implementation #######
###################################
# Smoking example data
data(smoking)
smoking_out <-
smoking %>%
# initial the synthetic control object
synthetic_control(outcome = cigsale,
unit = state,
time = year,
i_unit = "California",
i_time = 1988,
generate_placebos= FALSE) %>%
# Generate the aggregate predictors used to generate the weights
generate_predictor(time_window=1980:1988,
lnincome = mean(lnincome, na.rm = TRUE),
retprice = mean(retprice, na.rm = TRUE),
age15to24 = mean(age15to24, na.rm = TRUE)) %>%
generate_predictor(time_window=1984:1988,
beer = mean(beer, na.rm = TRUE)) %>%
generate_predictor(time_window=1975,
cigsale_1975 = cigsale) %>%
generate_predictor(time_window=1980,
cigsale_1980 = cigsale) %>%
generate_predictor(time_window=1988,
cigsale_1988 = cigsale) %>%
# Generate the fitted weights for the synthetic control
generate_weights(optimization_window =1970:1988,
Margin.ipop=.02,Sigf.ipop=7,Bound.ipop=6) %>%
# Generate the synthetic control
generate_control()
# Plot the observed and synthetic trend
smoking_out %>% plot_trends(time_window = 1970:2000)
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