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pdfUnited States
Department of
Agriculture
National
Agricultural
Statistics
Service
Research and
Development Division
Washington DC 20250
RDD Research Report
Number RDD-14-02
Using Nonresponse
Propensity Scores to Set
Data Collection
Procedures for the
Quarterly Agricultural
Survey
Melissa Mitchell
Kathy Ott
Jaki McCarthy
November 2014
This report has been prepared for limited distribution to the research community outside the U.S. Department
of Agriculture (USDA). The views expressed herein are not necessarily those of National Agricultural
Statistics Service or USDA.
��EXECUTIVE SUMMARY
Starting in 2009, national nonresponse propensity score models were used for the Quarterly
Agricultural Survey (QAS) to identify likely nonrespondents. Initially, these scores were given to
Field Offices (FO) for use at their own discretion. Over time, FOs were given guidelines on how
to use the scores in their data collection efforts. In 2012, the national-level model was replaced
with state-specific models to give more accurate nonresponse propensity scores.
Two questions drove this research:
Can the models identify potential nonrespondents in the QAS?
Can standardized data collection procedures be developed that use the nonresponse
scores to increase response rates for the QAS?
Structured data collection protocols were developed and tested in September and December 2012
for the QAS. The data collection protocols used the nonresponse propensity scores in
conjunction with strata to assign data collection method codes. Nine treatment states used the
new data collection protocols in September and six states in December to test whether the
protocols increased response rates. Non-participating states served as the comparison states.
Using the overall response rates from the survey, we determined that the models do identify
potential nonrespondents for the QAS, identifying both refusals and inaccessibles well.
Results for increasing response rates were mixed. Predicted response rates were compared to
actual response rates for the treatment and comparison states. The results showed the treatment
states were more effective at targeting refusal operations than the comparison states, but the
converse was true for inaccessible operations. Interpreting the differences in response rates can
be misleading, however, since non-treatment states could also have used the same data collection
methods as prescribed by the treatment, and treatment states did not always use the prescribed
methods, making it difficult to evaluate specific treatments.
Note: The name of the Quarterly Agricultural Survey changed to the Crops Acreage and
Production Survey (APS) after this research was completed, but for the purposes of this report,
the original name will be used.
i
��RECOMMENDATIONS
1. Continue to use nonresponse propensity scores for the Quarterly Agricultural Survey
(QAS).
2. Continue to develop and evaluate data collection method procedures to increase response
rates for both refusals and inaccessibles/noncontacts. The procedures tested in this study
were inconclusive, so more work on effective ways to increase response rates, while
containing costs, is needed.
3. Expand the use of nonresponse propensity scores to other surveys. Other surveys may
find they are good predictors of nonresponse, and be able to develop tailored data
collection strategies to specific subgroups.
4. Investigate a more formal way to identify impact operations to further target operations.
5. Standardize data collection procedures agency-wide to facilitate rigorous and clean
evaluations of specific data collection protocols. Unless this is done, tests and
experiments will not provide conclusive results.
ii
�TABLE OF CONTENTS
1.
INTRODUCTION ...................................................................................................................1
2.
METHODS ..............................................................................................................................3
2.1
3.
Targeted Data Collection ................................................................................................ 3
RESULTS ................................................................................................................................7
3.1
Can we use the models to identify potential nonrespondents in the Quarterly
Agricultural Survey (QAS)? .................................................................................................... 7
3.1.1 September Results .................................................................................................. 8
3.1.2 December Results ................................................................................................ 10
3.2
Can we develop standardized data collection procedures that use the nonresponse
scores to increase response rates for our surveys by targeting potential nonrespondents? . 14
3.2.1 Following procedures........................................................................................... 14
3.2.2 Predicted vs Actual Response Rates .................................................................... 15
4.
CONCLUSIONS AND RECOMMENDATIONS ................................................................17
4.1
5.
Recommendations ......................................................................................................... 18
REFERENCES ......................................................................................................................20
APPENDIX A: Memos regarding targeted data collection ........................................................ A-1
APPENDIX B: Response rates for treatment and comparison states ..........................................B-1
APPENDIX C: State level predicted vs actual response .............................................................C-1
�Using Nonresponse Propensity Scores to Set Data Collection Procedures for
the Quarterly Agricultural Survey
1
Melissa Mitchell, Kathy Ott, and Jaki McCarthy
Abstract
In order to target nonrespondents proactively, the National Agricultural Statistics
Service (NASS) began using propensity nonresponse models for the Quarterly
Agricultural Survey (QAS). Since 2009, NASS has used national models to
identify likely nonrespondents for the QAS. For the September and December
2012 surveys, targeted data collection procedures were created, partly based on
the nonresponse propensity scores, and evaluated. We compared response rates
between treatment and comparison states to determine the scores’ efficacy. In
addition, we examined the difference in actual and predicted response rates for the
treatment and comparison states to determine whether the targeted data collection
procedures increased response rates.
Key Words: nonresponse, classification trees, targeted data collection
1.
INTRODUCTION
Survey nonresponse has been a growing concern for many years. Survey response rates are
declining in both public and private sectors. Approaches to reduce survey nonresponse include
using face-to-face interviews, sending a personalized letter, or using incentives (Dillman, 1978;
Groves and Couper, 1998). Calibration weighting is one of the ways to adjust for survey
nonresponse (Earp et al, 2008; Kott, 2005). In 2009, NASS started developing a technique to
proactively identify likely nonrespondents by using classification trees. Previous research by
McCarthy and Jacob (2009) and McCarthy, Jacob, and McCracken (2010) modeled survey
nonresponse for the Quarterly Agricultural Survey (QAS) with classification trees. Earp and
McCarthy (2011) used classification trees to identify likely nonrespondents for the Agricultural
Resource Management Survey Phase III (ARMS III). Identifying likely nonrespondents before
data collection allows the use of more effective data collection strategies to maximize response,
reduce nonresponse bias, and contain costs.
This paper describes an evaluation of a set of field offices using standardized procedures
compared to a set of field offices using a variety of data collection protocols. This project
involved the development and field testing of a set of standard procedures used by selected
states, but because this was done as was part of the operational data collection, the other states
continued using the procedures they had in place. This evaluation was not set up as a controlled
experiment, but we can compare the actual response rates to the predicted response rates for our
1
Melissa Mitchell and Kathy Ott are Mathematical Statisticians, and Jaki McCarthy is the senior cognitive research
methodologist with the National Agricultural Statistics Service, Research and Development Division, 3251 Old Lee
Highway, Room 305, Fairfax, VA 22030.
1
�selected states and for all the other states. We did not examine or evaluate how targeting these
operations could impact or bias estimates from the QAS.
Our research questions were:
•
•
Can models identify potential nonrespondents in the QAS?
Can standardized data collection procedures be developed that use the nonresponse
scores to increase response rates for the QAS?
Data mining is a machine-learning technique that is able to handle large datasets like the one
used for this study. Within data mining, classification (or decision) trees are used to predict the
outcome of a binary variable, such as survey response/nonresponse, from auxiliary data. The
primary objective of classification trees is classification of groups (in our case
respondent/nonrespondent operations). Classification trees are non-theoretical and completely
data driven; no hypothesis is proven or disproven, the only concern is how well they can classify
into groups (survey response/nonresponse in this case).
Logistic regression is another common technique used to predict the outcome of a binary
variable. However, classification trees are preferred to logistic regression in this situation for
multiple reasons. First, in logistic regression, operations with missing data are usually removed
from the analysis, whereas classification trees retain such operations. Especially in cases where
we are interested in survey response/nonresponse, missing values can be indicative of what we
are predicting. Second, a limited number of predictors can be used in a regression analysis. Our
data have over 60 predictor variables. It is not ideal to use all of these variables (and possible
interactions) in a regression model but all of these variables can be used in a classification tree
analysis. By using classification trees, we do not have to specify the variables in the model
beforehand; it automatically detects significant relationships and interaction effects without prespecification which reduces the risk of selecting the wrong variables or other model specification
errors (Schouten, 2007). Logistic regression requires pre-specification of the variables to include
in the model which leaves the user at risk for selection bias, inclusion of the wrong variables, and
other issues. Also, the more variables we include in our model, the harder it is to avoid issues of
multicollinearity in logistic regression. This is less of a problem for classification trees (Phipps
& Toth, 2012). Variables that do not predict survey response/nonresponse will simply be
dropped from the classification tree model.
Once developed, the models identified likely respondents and nonrespondents. This allowed the
possibility for targeted data collection methodology to use limited funds effectively. For
example, for likely respondents, cheaper data collection methods, such as mail or telephone, may
be used. This allows saving more costly personal interviews for likely refusals and inaccessibles
(i.e., noncontacts). In addition, knowing the likelihood of specific operations to respond could
help during data collection by allowing changes to data collection strategies part way through the
data collection period. For example, near the end of data collection, changing the mode or
interviewer for the remaining records that are more likely to respond may positively impact
response rates and data collection costs.
2
�Widely used data collection methods that effectively solicit response include the use of
incentives, personal enumeration, and multiple calling attempts on different days and times.
These methods can be tailored to specific operations based on their relative likelihood of
responding. Managing these data collection methods can help contain monetary costs while
attempting to increase (or maintain) response rates.
2.
METHODS
McCarthy and Jacob (2009) and McCarthy, Jacob, and McCracken (2010) developed national
nonresponse models for NASS surveys using classification trees. These trees have been used
since their creation to identify and flag likely nonrespondents for the QAS. Records are assigned
a rank order “refusal” score ranging from one to four and an “inaccessible” score ranging from
one to five. Records with refusal/inaccessible scores of one are the most likely to be a
refusal/inaccessible, and those with a score of four or five are the least likely to be a
refusal/inaccessible.
2.1
Targeted Data Collection
As mentioned earlier, targeting data collection for records (i.e., operations) based on their
propensity to respond can possibly help increase response rates and/or contain data collection
costs. These gains can be maximized if the operations’ impact on the survey results are also
taken into account.
In addition to possible gains in response rates and decreased costs, managing data collection
based on an operation’s impact on the survey results could help reduce nonresponse bias. The
distribution of agricultural production across operations is often highly skewed, with some
operations contributing a large percentage of a particular commodity. With this in mind, we
wanted to identify the impact an operation has on survey estimates so we could use our resources
to maximize response rates for those operations that cover the most production.
The QAS uses a multivariate probability proportional to size (MPPS) sample design. However,
sampled operations are also assigned to strata, which are used in post data collection for itemlevel imputation and nonresponse weighting adjustments. Strata definitions vary by state, but
generally indicate either gross measures of the operation’s size or presence of significant (or
rare) commodities within the state.
The strata value was used to determine the impact of an operation on the QAS estimates, which
has advantages and disadvantages. Strata are readily available on the NASS sampling frame for
all operations. Because strata are clearly defined within each state, no development time was
needed to use them. However, the strata differ by state, making cross-state comparisons
difficult. Also, specialty strata that target operations with control data for commodities
important to state level estimates such as potatoes, cherries, or pineapple differ by state, so they
cannot uniformly help identify operations that have a high impact on a particular commodity
3
�across states. In addition, the QAS strata only take into account the value of sales or the acreage
for a commodity, but no other variables. Given the pros and cons, as well as time and resource
constraints, strata were chosen as the best indicator of impact for this study. The largest
operations are assigned strata values of 90 and above, while specialty operations are assigned
values of 70-79 in the states that use them.
NASS assigns each operation a data collection method code (DCM) to control data collection.
The DCM codes used for the September and December 2012 QASs were:
(1) Mail only,
(2) Mail with data collection center (DCC) or National Operations Center (NOC) phone followup,
(3) Field Office (FO) handling, with cases sent to field enumerators to call first and then attempt
in-person,
(4) Mail by print mail center (PMC) with FO follow-up,
(5) Office hold, and
(6) Coordinated surveys.
For the September 2012 QAS, nine treatment states (KS, NE, ND, MD, NH, FL, IA, MI, SC)
followed our instructions using the strata (our proxy for the impact of the operation), the
propensity scores, and other variables to assign DCM codes. For the December 2012 QAS, six
of the nine original states (KS, NE, ND, MD, NH, FL) continued to use the specific instructions.
The remaining states were the comparison states.
For both the September and December 2012 QASs, high impact operations were defined as
operations in strata 90 or above (typically very large producers in terms of value of sales) or in
specialty commodity strata. Although only the treatment states were required to use our method
code assignment criteria, nothing prohibited the comparison states from following a similar
protocol.
The DCM assignment criteria are shown in Tables 1 and 2 for September and December.
Table 1: September Data Collection Method Code Criteria
Data Collection Method Code
01 - Mail Only
Records assigned to that code
02 – Mail with DCC Follow-up
03 - FO Handling
No specific records assigned.
Low or mid impact operations with a comparatively low
chance of being a nonrespondent (i.e., all records in
strata less than 90 with a refusal nonresponse propensity
score = 2- 4 or an inaccessible nonresponse propensity
score =2-5)
Operations highly likely to be nonrespondents (records
with a refusal nonresponse propensity score =1 or an
inaccessible nonresponse propensity score= 1)
4
�Data Collection Method Code
Records assigned to that code
Operations with the same target/primary operator
(Opdom 85/45)
All high impact records (Records in strata 90 or above)
Records where a partner switch was done sometime
throughout the year.
Special contact arrangements made with the operator.
No specific records assigned
Known zeros
Previous contact agreements
Special situations (dangerous or possible violent
situation, etc.)
Matches with another NASS survey
04 - Mail by PMC with FO
Follow up
05 - Office Hold
06 - Coordinated with surveys
Call-out
(Call-out is the end of the
survey cycle when the sample is
looked at to see if changes in
data collection mode could help
increase response for specific
subgroups in the population if
needed.)
Use the Nonresponse Propensity Scores and Strata to
determine which records will have the highest impact on
estimates and are most likely to respond. Pull those records
back from the DCCs and send them to the field for calling.
The DCC/NOC will keep the rest of the records for calling.
Records that should be pulled back include:
Records in strata 90 and 70-79 with a refusal nonresponse
propensity score =4 or an inaccessible nonresponse
propensity score =5 meet this criteria
See footnote*
*Unrelated to this project, county estimate coverage needs were considered (see Appendix A)
Based on state office feedback about their experience with the procedures in September, changes
were made to the instructions for December, as reflected in Table 2. During the September
study, treatment states gave feedback on the data collection protocol resulting in slight changes
to the instructions. The modifications for December included: specialty commodities were
assigned to personal visit (PV); EO strata and highly likely to refuse/be inaccessible can be
mailed first; disconnected phone numbers were considered; and records with an existing
appointment were held in the DCC during call-out. These changes are shown in Table 2 in
italics.
5
�Table 2: December Data Collection Method Code Criteria
(changes from September are shown in italics)
Data Collection Method Code
Records assigned to that code
01 - Mail Only
No specific records assigned.
02 – Mail with DCC Follow-up
03 - FO Handling
03 - FO Handling or 04 - Mail
by PMC with FO Follow up
05 - Office Hold
06 - Coordinated with surveys
All low or mid impact farms with a comparatively low
chance of being a nonrespondent (i.e., All records in
strata less than 90 with a refusal nonresponse
propensity score = 2- 4 or an inaccessible nonresponse
propensity score =2-5), except specialty commodities.
Related records (85/45 records)
Records where a partner switch was done sometime
throughout the year.
Special contact arrangements made with the operator.
Disconnected phone number
All records that are highly likely to be nonrespondents
(i.e., All records with a refusal nonresponse
propensity score =1 or an inaccessible nonresponse
propensity score =1)
All high impact records (i.e., Records in the EO Strata
(90 or above))
All records in specialty commodity strata
Known zeros (records that we know don’t have the
commodity of interest)
Previous contact agreements (records that we have
data collection agreements with)
Special situations (dangerous or possible violent
situation, etc.)
Matches with another NASS survey
Use the Propensity Scores and Strata to determine which
records will have the highest impact on estimates and are most
likely to respond. Pull those records back from the DCCs and
send them to the field for calling. The DCC/NOC will keep
the rest of the records for calling. Records that should be
pulled back include:
Call-out
Records in strata 90 and 70-79 with a refusal nonresponse
propensity score =4 or an inaccessible nonresponse
propensity score =5 meet this criteria
See footnote*
Keep records with existing appointments in the DCC
*Unrelated to this project, county estimate coverage needs were considered (see Appendix A)
6
�See Appendix A for the memoranda and specifications sent to the field offices each quarter.
Measures of impact and the likelihood of responding were used to guide data collection methods
in an effort to maximize response and coverage while minimizing costs. Hence the farms most
likely to be nonrespondents and the high impact farms were targeted for field enumeration by the
field offices (DCM codes = 3 and 4). This mode of data collection has the highest response
rates, but also the highest cost. Cases that were sent for field enumeration were completed by
field enumerators, either on the phone or in person. These cases were not sent to the DCC or the
NOC, but were called or visited in person by field enumerators. Often, enumerators are familiar
with the local farms, particularly large ones, because those are interviewed for multiple surveys.
Therefore, field enumerators may be better equipped to perform the data collection.
In general, operations that were not as important to the estimates and operations that were highly
likely to respond were mailed questionnaires and had phone follow-up. This method of data
collection is much cheaper than field enumeration, so it was a good choice for ‘easier’ (likely to
respond) operations and those that had less potential impact on the estimates.
Towards the end of data collection, state offices asked the NOC or DCC to send some of the
cases that were not yet complete back to the state office for one last attempt at getting responses.
NASS refers to this process as “callout.” During callout for the September and December 2012
QASs, treatment states took back operations that were highly likely to respond and had the most
anticipated impact on the estimates. These were operations in strata 90 or above and specialty
strata, if applicable (70-79), with a nonresponse propensity score of 4 for refusals or 5 for
inaccessibles. There cases were returned to the state offices for two reasons. First, they were
fairly likely to respond. The notion was that a state office may have information that could help
obtain a response from these impact operations. Second, these cases were in the defined impact
group, so they were most likely to impact at least one estimate for the state. The offices may also
have field enumerators who were particularly good at obtaining response in-person or who knew
more information about the operation.
3.
Results
3.1 Can models identify potential nonrespondents in the Quarterly Agricultural Survey
(QAS)?
To address this question, response rates were compared across the nonresponse propensity
groups for the September and December 2012 QASs. The rates for the treatment and
comparison states were similar, so only the overall response rates are shown in this section. The
separate response rates for the treatment states and the comparison states are shown in Appendix
B for informational purposes.
7
�3.1.1 September Results
Tables 3 and 4 and Figure 1 show the overall response rates for records flagged as highly likely
nonrespondents, both refusals and inaccessibles, within the nonresponse propensity groups for
the September 2012 survey. Again, separate response rates for the treatment states and the
comparison states are shown in Appendix B.
Table 3: September 2012 response rates for
flagged refusals within propensity groups
Overall response
Refusal
rate (%)
Score =1 (most
likely to refuse)
21.06
Score=2
52.06
Score=3
62.92
Score=4 (least
likely to refuse)
77.78
Total N
60,320
Table 4: September 2012 response rates for
flagged inaccessibles within propensity groups
Overall response
Inaccessible
rate (%)
Score=1 (most
38.94
likely to be
inaccessible)
Score=2
44.04
Score=3
34.02
Score=4
Score=5 (least
likely to be
inaccessible)
72.80
Total N
60,320
75.42
8
�Figure 1 September 2012 Overall Response Rate by predicted outcome
Response Rate for Likely Refusals and Noncontacts
September
100
80
60
Refusals
40
Noncontacts
20
0
1
2
3
4
5
Propensity Group
Tables 3 and 4 and Figure 1 show that the models worked fairly well at predicting nonresponse
for the 2012 September Crop/Stocks survey because, in general, response rates for the records
that were most likely to be refusals or inaccessible were indeed much lower than for the records
that were predicted less likely to be nonrespondents.
Overall response rates for operations that were predicted most likely to be nonrespondents are
very low – 21.06 percent for refusals and 38.94 percent for inaccessibles. The response rate
increases as predicted for refusals for all propensity groups. The response rate for inaccessibles
generally increases with propensity group, but decreases between operations in propensity
groups 2 and 3. It is unclear why this dip occurs in response rates for these two groups. The
decrease could be somewhat artificial, as the operations with a noncontact propensity score
equaling 1 were the operations states focused on in the study. It is possible that this additional
attention to the operations most likely to be inaccessible increased the response rate for that
group. This could explain why operations in that group have a similar and higher response rate
than those with scores equaling 2 and 3.
High impact operations for this study were those in strata greater than or equal to 90 (the largest
operations) and those in the specialty strata, i.e., strata 70-79, if applicable. Response rates were
calculated for the high impact operations to see if the scores accurately identified potential
nonrespondents in that group. Again, response rates for the treatment states and comparison
states were done separately, but showed no difference in the response trend, so those response
rates are broken out in tables in Appendix B. Tables 5 and 6 below show the response rates for
the high impact operations across all states for September 2012.
9
�Table 5: September 2012 response rates for all high
impact operations within propensity score groups for
flagged refusals
Overall response rate
Refusal
(%)
Score=1 (highly
18.46
likely)
Score=2
52.53
Score=3
65.08
Score=4 (least
likely)
79.42
Total N
30,581
Table 6: September 2012 response rates for all high
impact operations within propensity score groups for
flagged inaccessibles
Overall response rate
Inaccessible
(%)
Score=1 (highly
38.09
likely)
Score=2
44.72
Score=3
31.63
Score=4
Score=5 (least
likely)
Total N
73.39
74.32
30,581
The same pattern shown in Tables 3 and 4 emerge in Tables 5 and 6. In general, response rates
for the high impact records that are mostly likely to be refusals and inaccessibles are indeed
lower than for the high impact records that were predicted to be less likely to be nonrespondents.
3.1.2 December results
Tables 7 and 8 show the overall response rates for the 2012 December Crop/Stocks survey by
propensity group. Appendix B shows the breakdown by the treatment and comparison states.
10
�Table 7: December 2012 response rates for flagged
refusals within propensity groups
Overall response
Refusal
rate (%)
Score =1 (most
14.55
likely to refuse)
Score=2
45.91
Score=3
55.58
Score=4 (least
likely to refuse)
73.35
Total N
73,027
Table 8: December 2012 response rates for flagged
inaccessibles within propensity groups
Overall response
Inaccessible
rate (%)
Score=1 (most likely
29.80
to be inaccessible)
Score=2
37.98
Score=3
28.66
Score=4
68.18
Score=5 (least likely
to be inaccessible)
71.25
Total N
73,027
As in September, Tables 7 and 8 for December show the models are fairly good at predicting
nonresponse. In general, response rates for the records that are mostly likely to be refusals and
inaccessibles are indeed quite a bit lower than for the records that were predicted to be less likely
to be nonrespondents. This is shown graphically for the December survey in Figure 2.
11
�Figure 2 December 2012 Response Rate by predicted outcome
Response Rate for Likely Refusals and Noncontacts
December
100
90
80
70
60
50
40
30
20
10
0
Refusals
Noncontacts
1
2
3
4
5
Propensity Group
As in September, high impact operations in December were those with strata values greater than
or equal to 90 and the specialty strata (70-79). Overall, 12.28 percent of the high impact
operations flagged as highly likely refusals responded to the survey and 29.26 percent of the high
impact operations flagged as highly likely inaccessible responded to the survey. As seen in
September, in December, the response rate for inaccessibles generally increases with propensity
group, but decreases between operations in propensity groups 2 and 3. It is unclear why this dip
occurs in response rates for these two groups.
Tables 9 and 10 show the response rates for the high impact operations by propensity score.
Appendix B shows the breakdown for the treatment and comparison states.
12
�Table 9: December 2012 response rate for all high
impact operations within propensity groups for
flagged refusals
Refusal
Overall rate
Score=1 (highly
likely)
12.28
Score=2
46.68
Score=3
56.38
Score=4 (least
likely)
Total N
74.43
36,607
Table 10: December 2012 response rates for all high
impact operations within response propensity groups
for flagged inaccessibles
Inaccessible
Overall rate
Score=1 (highly
29.26
likely)
Score=2
34.28
Score=3
25.70
Score=4
68.77
Score=5 (least
likely)
70.16
Total N
36,607
The same patterns shown in Tables 7 and 8 emerge in Tables 9 and 10. In general, response rates
for the high impact records that were most likely to be refusals and inaccessibles are indeed
lower than for the records predicted to be less likely to be nonrespondents.
Tables 3-10 show that the nonresponse propensity scores predict nonresponse fairly accurately
for the Quarterly Agricultural Surveys for both the entire sample and the high impact operations.
13
�3.2 Can standardized data collection procedures that use nonresponse scores increase
response rates for the Quarterly Agricultural Surveys?
As stated earlier, although the treatment states agreed to follow the data collection procedures
provided, other states may also have used the same procedures (or used the same procedures for
some subset of their records), but there was no systematic way to determine how similar the
procedures used by other states were to the treatment procedures. Also, based on the debriefing
questions with the treatment states after September 2012, the treatment procedures were very
similar to those normally used during data collection to set data collection method codes. These
two issues could cause effects in the treatment group to be small, and make it difficult to
interpret the results comparing the treatment and comparison states.
3.2.1 Following procedures
Method Codes used for the September QAS were summarized for four treatment states (IA, MD,
MI, and NE) for which we had Method Code data. Treatment assignments were given for
Method 2 (mail with phone follow up) and Method 3 (FO handling, to be sent to field
enumerator to call first, then do personal visit). Table 11 shows that the treatment protocol was
often not followed.
Table 11: September Records targeted for Method Codes 2 and 3
IA
MD
MI
NE
Should use
2,246
880
1,163
2,123
Method Code 2
Used Method
1,722 (76.7%)
519 (59.0%)
307 (26.4%)
1,489 (70.1%)
Code 2
Should use
655
293
314
672
Method Code 3*
Used Method
122 (18.6%)
174 (59.4%)
306 (97.5%)
538 (80.0%)
Code 3
* records with MPROFREF=1 (most likely to be a refusal) or MPROFINN=1 (most likely to be an
inaccessible) or strata>=90 (typically large operations; large capacity/sales/land etc), or odstat=85 or
odstat=45 (related record; operator status is either 85 or 45)
Table 11 does not take into account operations that should not have been assigned Method Code
2 or 3 and were assigned them anyway. From Table 11, we can see that IA, MD, and NE
assigned at least half of the operations that the procedures specified to be assigned Method Code
2 to the treatment method. All of these states used Method 3 (field enumerators) to some extent
when they should have used Method 2 (mail with phone follow up). There were much fewer
operations that should have been assigned to Method Code 3 compared to Method Code 2. With
the exception of IA, at least 50 percent of the operations that were supposed to be assigned
Method Code 3 were assigned according to the treatment procedures.
14
�Generally, data collection by mail with phone follow up does not get as high of a response as
personal visit, but given the relatively high propensity to respond and relatively low impact of
the identified operations, the tradeoff of response rates for costs was deemed appropriate for the
treatment protocol. However, apparently field offices often disagreed and were apprehensive
about using mail with phone follow up for several operations. Iowa, Maryland, and Nebraska
also used data collection efforts defined by other Method Codes (not 2 or 3) to operations that
should have used Method Codes 2 and 3.
Operations were also identified that should have been targeted for the callout (if necessary), but
since there was no Method Code for follow up procedures, we could not determine which
received follow-up.
3.2.2 Predicted vs. Actual Response Rates
Because states have different baseline response rates, it may be misleading to directly compare
any given state’s response rate to another. Therefore, each state’s actual response rate was
compared with that state’s predicted response rate (from the state level models) to determine if
that state’s response rate was higher or lower than predicted by the model.
We used the national model to flag these records. However, in order to compare state-level
response rates, we applied the model rules to each state’s samples to obtain a state specific
response rate predicted by the model. State level models varied in the number of levels they
have (i.e., more terminal nodes). Therefore, all states have a group of highest likelihood
nonrespondents (NRP=1), but the number of rank order groups after that varied by state models.
Therefore, we focused this comparison on the highest likelihood group.
For the operations that were the most highly likely to be refusals and the operations that were
most highly likely to be inaccessible, we calculated the difference between the actual response
rates and the predicted response rates for each state and averaged them together to get one
number for the treatment states and one number for the comparison states. Using this
calculation, the higher the positive value, the better the increase in response rate. Negative
values indicate decreases in response, with larger negative numbers showing larger decreases.
Table 12 shows the average difference for the treatment and comparison states. Appendix
Tables C1 and C2 provide the actual and predicted response rates for each of the treatment and
comparison states, respectively, along with some discussion. As shown in those appendix tables,
several states in both the treatment and comparison states had better than predicted response
rates, but several had lower than predicted response rates.
15
�Table 12. September 2012 summary of response rates for
treatment and comparison states (for highly likely nonrespondent
operations)
Difference (Actual %-Predicted %) (%)
Treatment
Comparison
Highly Likely Refusal
2.78
-4.60
Highly Likely Inaccessible
9.36
14.67
Table 12 shows that during the September 2012 QAS, the treatment states had better response
for predicted refusals, but worse response for likely inaccessibles when compared to the
comparison states. As mentioned earlier, however, the treatment effect should be small because
all states could use the treatment procedures, and those treatment procedures closely matched
what states already do.
As in September, we also compared the actual response rates and predicted response rates for the
most highly likely nonrespondents for December because of possible different baseline response
rates among states. Again, although we used the national model to flag these records, we applied
the model rules to each state’s samples to obtain a state specific response rate predicted by the
model. Also similar to September, we only compared the records in the NRP=1 (most highly
likely nonrespondents) group because it was the only group that was the same across all state
models. Using this calculation, the higher the positive value, the better the increase in response
rate. Negative values indicate decreases in response, with larger negative numbers showing
larger decreases. Appendix Tables C3 and C4 provide the actual and predicted response rates for
each of the treatment and comparison states, respectively. As shown in those appendix tables,
and consistent with September results, several states in both the treatment and comparison states
had better than predicted response rates, but several had lower than predicted response rates.
Table 13. December 2012 summary of response rates for
treatment and comparison states (for highly likely nonrespondent
operations)
Difference (Actual %-Predicted %) (%)
Treatment
Comparison
Highly Likely Refusal
0.20
-11.95
Highly Likely Inaccessible
-5.09
5.51
Table 13 shows that the difference between the actual and predicted response rates were better
for the treatment state refusals, but worse for inaccessibles. This is similar to September results.
16
�4.
CONCLUSION AND RECOMMENDATIONS
In general, the prediction models accurately identified refusals and inaccessibles for the
Quarterly Agricultural Survey. Operations in categories with higher predictions of nonresponse
had consistently lower response rates. Inaccessibles were a bit mixed, but generally, the same
trend held. The research question regarding whether targeting the nonrespondents increases
response rates is more complicated.
As stated earlier, this was an evaluation of a set of field offices using standardized procedures
compared to a set of field offices using a variety of data collection protocols, but was not set up
as a controlled experiment. Data collection methods were developed with input from the
participating states, so the treatment protocol was similar to what many states already do. The
treatment data collection methods may have also been used by comparison states. Finally, the
treatment protocol was not always followed. For these reasons, it is difficult to compare the
results between the treatment and comparison states and to generalize the findings.
Results from the September and December experiments were mixed when comparing the
differences between predicted and actual response rates. For both the September and December
surveys, when compared to the comparison states, the difference between the actual and
predicted response rates was higher for the treatment states’ predicted refusals, but lower for the
predicted inaccessibles. However, improvements for refusals were small and, as discussed, the
treatment protocol was not always followed, so we do not know if the treatment states were more
effective at targeting the refusal operations than the comparison states.
Due to the caveats already mentioned, we cannot determine whether substantial gains in response
rates were attained using the standardized data collection methods developed for this research.
However, the nonresponse models were shown to accurately predict nonrespondents. It is
possible that different procedures for setting data collection method codes might be effective at
increasing response rates. Also, it may be advantageous to create different procedures for
operations that are highly likely to refuse versus those that are highly likely to be inaccessible.
The procedures and methods used for these groups to increase response are likely different.
Although almost all records were sent to the field, the response rate for the high impact records
(those in the largest and specialty commodity strata) that were flagged as the most likely to be
nonrespondents was only 10-17 percent. NASS should consider spending this money on other
groups that might show better increases such as the highly likely to be inaccessible group or the
groups that have refusal or inaccessible propensity scores of 2 or 3. For example, it may be better
to target operations with propensity to refuse scores of 2 or 3 (i.e., medium likely to refuse) with
Field Office special handling since it may be easier to gain their cooperation.
One area that still needs additional work is defining high impact operations. For this study, high
impact only involved operations in strata 90 or above and specialty commodities, if applicable.
However, other criteria may better identify high impact operations. For example, certain control
data may more accurately indicate an operation’s impact on a particular estimate. This could be
17
�taken into account up front to classify operations into impact groups. NASS should look into
what variables would be the best impact indicators based on the variables of interest.
NASS should continue to develop standardized data collection procedures that target
nonrespondents by exploring alternatives to the procedures used here. Ideas include analyzing
the relationship between response rates, mode, and nonresponse score; targeting the operations
that are somewhat likely to be nonrespondents; and considering special data collection
procedures for the largest farms.
We could not make clean comparisons of the treatment states and comparison states for several
reasons. The main reason is that the data collection procedures across state offices or regional
offices are not standardized. In most cases, we did not know what procedures state offices used,
but only what we asked them to do. It is difficult to evaluate new or different procedures if it is
unclear exactly what is being compared. Also, as is often the case during research projects that
use production samples and data, we could not completely separate the treatment and comparison
state’s procedures or enforce the procedures in the treatment states and regions. If we want to
evaluate changes to procedures, we need to move as an agency to standardized procedures that
can be modified for specific states or regions for testing. NASS is currently undergoing that
process.
While this study was ongoing, Research and Development Division developed state-level models
and implemented them starting in the June 2013 QAS data collection period. The state models
were built using the same variables as the national models, which include demographic
information, list frame variables, response history indicators, joint burden indicators, as well as
QAS and Census of Agriculture variables. These models vary in size and complexity; some
states have small, condensed trees while other states have much larger, expansive trees. This
means that some state trees have only 1 level (only one important splitting variable) while other
state trees have 5 or 6 levels. Although the models vary in size and complexity across states, the
only types of variables in all the models are response history variables and joint burden
indicators. Although the trees vary in size and complexity, a rank score of 1 still means that an
operation is a highly likely refusal or inaccessible. The national model works well broadly, but it
is possible that specific models for particular states will perform better than the national model at
predicting likely refusals and inaccessibles. No evaluation has been done on the state-level
models at this time. In addition, no evaluation has been done to examine the impact on estimates
or nonresponse bias of using these targeted data collection techniques.
4.1 Recommendations
Based on the research done, the following are recommended:
1. Continue to use nonresponse propensity scores for the Quarterly Agricultural Survey
(QAS).
18
�2. Continue to develop and evaluate data collection method procedures to increase response
rates for both refusals and inaccessibles/noncontacts. The procedures tested in this study
were inconclusive, so more work on effective ways to increase response rates, while
containing costs, is needed.
3. Expand the use of nonresponse propensity scores to other surveys. Other surveys may
find they are good predictors of nonresponse, and be able to develop tailored data
collection strategies to specific subgroups.
4. Investigate a more formal way to identify impact operations to further target operations.
5. Standardize data collection procedures agency-wide to facilitate rigorous and clean
evaluations of specific data collection protocols. Unless this is done, tests and
experiments will not provide conclusive results.
19
�REFERENCES
Dillman, D. (1978). Mail and Telephone Surveys: The Total Design Method. New York:
Wiley & Sons.
Earp, M. and McCarthy, J. (2011). Using Nonresponse Propensity Scores to Improve Data
Collection Methods and Reduce Nonresponse Bias. JSM Proceedings, American
Association of Public Opinion Research. Phoenix, AZ.
Earp, M.S., McCarthy, J.S., Schauer, N.D., & Kott, P.S. (2008). Assessing the Effect of
Calibration on Nonresponse Bias in the 2006 ARMS Phase III Sample Using Census
2002 Data. Research and Development Division Staff Report RDD-08-06, United States
Department of Agriculture, National Agricultural Statistics Service.
Groves, Robert M., and Mick P. Couper. (1998). Nonresponse in Household Interview Surveys.
New York: Wiley.
Kott, P.S. (2005). Using Calibration Weighting to Adjust for Nonresponse and Coverage Errors.
Survey Methodology 32:133-142.
Maxwell, Scott E., and Delaney, Harold D. (2004). Designing Experiments and Analyzing Data:
A Model Comparison Perspective, 2nd edition. New Jersey: Lawrence Erlbaum
Associates, Inc.
McCarthy, J.S., & Jacob, T. (2009). Who Are You? A Data Mining Approach to Predicting
Survey Non-respondents. JSM Proceedings, American Association for Public
Opinion Research. Hollywood, Florida: American Statistical Association.
McCarthy, J.S., Jacob, T, & McCracken, A. (2010). Modeling Non-response in National
Agricultural Statistics Service Surveys Using Classification Trees, Research and
Development Division Research Report Number RDD-10-05, US Department of
Agriculture, National Agricultural Statistics Service.
Phipps, P. & Toth, D. (2012). Analyzing Establishment Nonresponse Using an Interpretable
Regression Tree Model with Linked Administrative Data. Annals of Applied Statistics, 6
(2), 772-794.
Schouten, B. (2007). A Selection Strategy for Weighting Variables Under a Not-Missing-atRandom Assumption. Journal of Official Statistics 23(1): 51-68.
20
�Appendix A
Memos regarding targeted data collection
September 2012 Memo (Although South Dakota is included on this memorandum, they opted
out of the study before data collection started).
************************************** OFFICIAL NOTICE **************************************
DATE:
August 2, 2012
TO:
Acting Regional Directors
State Directors
Deputy Directors
Survey Statisticians
Field Offices: KS, NE, ND, SD, MI, MD, NH, FL, SC, IA
THROUGH:
Chris Messer
Chief
Program Administration Branch
FROM:
Everett Olbert
Commodity Surveys Section
Program Administration Branch
Subject:
Non-Response Propensity Score Pilot Study for September 2012
ACTION:
Utilize the Outlined procedures to set data collection methods for
the September Crops/Stocks
DUE DATE: A Final Decision on participation in the pilot is needed by the COB
on Monday, August 6, 2012
Pilot Study Evaluation Questions are due by the COB on Friday,
October 5, 2012
The Program Administration Branch needs your assistance in evaluating the use of
Non-response propensity scores. Some of you assisted HQ with this last quarter and it
was very much appreciated. The survey team has been asked to conduct this test
again this quarter. HQ has been asked to work with states that had lower response
rates and those who volunteered. Ultimately, senior management would like for states
to follow the same procedures for the survey process right down to how initial method
codes are set. This pilot is intended to help set the rules for those procedures.
A-1
�Appendix A
Memos regarding targeted data collection
The goal of this pilot study is to see if the instructions provided are helpful in the
establishment of data collection plans for September. We also want to determine if the
procedures are any different from what you are doing now. Try to follow the instructions
provided as closely as possible when setting method codes and completing the
CALLOUT process for September Crops/Stocks.
Note, the survey instructions were written from the perspective of a survey statistician.
Field Office management is asked to discuss the outlined procedures with your survey
statisticians prior to making a final decision on whether to participate in the pilot.
RDD has provided evaluation questions for your completion after method codes have
been assigned for each record (see page 3 of the survey instructions). Please send an
email containing your response to these questions to Leslee Lohrenz (with a cc to Scott
Cox) by the COB on October 5, 2012.
Please send an email to Everett Olbert (with a cc to Scott Cox) indicating whether your
state is willing to participate in the pilot by the COB on Monday, August 6, 2012. I
apologize for the last minute notice.
Please call Everett Olbert at 202-720-4332 or Scott Cox at 202-720-4028, if you have
any questions.
******************************************************************************
****
Non-Response Propensity (NRP) Scores Instructions
September 2012 Ag Surveys
The non-response propensity scores will be on the Sample Master. Field Offices will no longer
need to download the indicators in their extract. However, FOs will need to make sure these
varnames are pulled from the Sample Master into SMS.
The Varnames are as follows:
X3 will become MPROPREF
X4 will become MPROPINN
Propensity Score – Refusal
(1 - most likely to refuse; 4 - least likely to refuse)
Propensity Score – Inacessible
(1 - most likely to be inaccessible; 5 - least likely to be
inaccessible)
A-2
�Appendix A
Memos regarding targeted data collection
Records that are high impact on estimates and highly likely to be inaccessible or refusal should
be sent to the field. (Unless they have an arrangement with the Operator or they are
dangerous/violent/threatening.) The rest of the records will be sent to the DCC/NOC for calling.
Suggestions for coding your Method Codes:
Method 01 - Mail Only
Method 02 – Mail with Phone Follow-up by DCC:
All records in strata less than 90 with MPROPREF = 2- 4 or MPROPINN=2-5
Method 03 - FO Handling Only; send to field enumerators to call first:
All records with MPROPREF=1 or MPROPINN=1
Records in the EO Strata (90 or above)
85/45 records
Records where a partner switch was done sometime throughout the year.
Special contact arrangements made with the operator.
These records should be sent to field enumerators and called at least 3 times before
attempting a personal interview.
Method 04 - Mail by PMC – FO Follow up:
PMC will label 2 questionnaires: 1st set mailed from PMC, 2nd set sent back to the FO
and data collected by Field Enumerators.
Method 05 - Office Hold:
Known zeros
Previous contact agreements
Special situations (dangerous or possible violent situation, etc.)
Method 06 - Coordinated with surveys:
Matches with surveys
During the September Crops/Stocks CALL-OUT:
The Report generated in Blaise and sent to you by your DCCs will have the Propensity Score for
each record. This was put on the Sample Master with the Varname shown in parenthesis. It is
shown on the report at REF and INACC scores.
REF Score and INACC Score
REF Score (MPROPREF)
Propensity Score – Refusal
A-3
�Appendix A
Memos regarding targeted data collection
(1 - most likely to refuse; 4 - least likely to refuse)
INACC Score (MPROPINN)
Propensity Score – Innacessible
(1 - most likely to be inaccessible; 5 - least likely to be
inaccessible)
Use the Propensity Scores and Strata to determine which records will have the highest impact on
estimates and are most likely to respond.
- Records in strata 90 and 70-79 with MPROPREF=4 or MPROPINN=5 meet this
criteria.
- County estimates coverage: you may also want to handle records in other strata based
on consideration of how many records have been completed by county for the county
estimates program.
Pull those records back from the DCCs and send them to the field for calling.
The DCC/NOC will keep the rest of the records for calling.
A-4
�Appendix A
Memos regarding targeted data collection
December 2012 Memo (Although Iowa is included on this memorandum, they opted out of the
study before data collection started).
************************************** OFFICIAL NOTICE **************************************
DATE:
November 7, 2012
TO:
State Directors
Deputy Directors
Survey Statisticians
All NASS Field Offices except AK
THROUGH: Barbara Rater
Chief
Survey Administration Branch
FROM:
Everett Olbert
Commodity Surveys Section
Survey Administration Branch
Subject:
Continuation of Non-Response Propensity Score Pilot Study for
December 2012
ACTION:
Utilize the Outlined procedures to set data collection methods for the
December Crops/Stocks
DUE DATE: Pilot Study Evaluation Questions are due by the COB on Friday,
January 04, 2013
Pilot States (KS, NE, ND, MD, NH, FL, IA):
The Survey Administration Branch needs your assistance in evaluating the use of Nonresponse propensity scores. Some of you assisted HQ in June and September and it
was very much appreciated. The survey team will conduct this test again this quarter,
working with the same states that participated in September. Ultimately, senior
management would like for states to follow the same procedures for the survey process
right down to how initial method codes are set. The continuation of this pilot study is
intended to help set the rules for those procedures.
The goal of this pilot study is to see if the instructions provided are helpful in the
establishment of data collection plans for December and whether the procedures, as
outlined, help reduce non-response. We also want to continue looking at how the
A-5
�Appendix A
Memos regarding targeted data collection
procedures are different from what you normally do. Follow the instructions provided
as closely as possible when setting method codes and completing the CALLOUT
process for December Crops/Stocks, noting any deviations in the feedback provided in
January.
RDD has provided evaluation questions for your completion after method codes have
been assigned for each record. These questions are located in the EDC Web Form
located at the following link: http://edc/webforms/form.asp?formid=387 and should be
completed by January 4, 2013.
Non-Pilot States:
This documentation is also being provided to non-pilot States for use in developing your
data collection strategy for December Crop/Stocks. These scores may help increase
your response rates by assisting in assigning data collection method codes to records
with high probability of being non-respondents.
Field Office management is asked to discuss the outlined procedures with your survey
statisticians prior to making a decision on whether or not to utilize these instructions.
Non-response propensity scores should still be evaluated regardless of whether or not
the documentation is followed this quarter.
Please call Everett Olbert at 202-720-4332 or Suzanne Avilla at 202-720-5389, if you
have any questions.
******************************************************************************
****
Non-Response Propensity (NRP) Scores Instructions
December 2012 Ag Surveys
In September, as part of a pilot research study, we asked some states to use the propensity scores
to determine the data collection method used for the September Ag Survey sample. We are
continuing that research study in December.
The non-response propensity scores will be on the sample master. Field Offices will no longer
need to download the indicators in their extract. However, FOs will need to make sure these
varnames are pulled from the sample master into SMS.
The varnames are as follows:
X3 will become MPROPREF
X4 will become MPROPINN
propensity score – Refusal
(1 - most likely to refuse; 4 - least likely to refuse)
propensity score – Inacessible
A-6
�Appendix A
Memos regarding targeted data collection
(1 - most likely to be inaccessible; 5 - least likely to be
inaccessible)
Refer to comments to determine operation-specific instructions for data collection (such as
arrangements with the operator or a dangerous/violent/threatening situation. If there are no
comments regarding special data collection, follow the coding recommendations below.
Basically, records that are high impact on estimates and highly likely to be inaccessible or refusal
should be sent to the field. The rest of the records will be sent to the DCC/NOC for calling.
Suggestions for coding your Method Codes:
Method 01 - Mail Only
Method 02 – Mail with Phone Follow-up by DCC:
All records in strata less than 90 with MPROPREF = 2- 4 or MPROPINN=2-5 (except
operations with specialty commodities in your state that should be assigned Method 03 or
04).
Method 03 –OR- Method 04 (“FO Handling Only; send to field enumerators to call first” OR
“Mail by PMC – FO Follow up”)
Records with MPROPREF=1 or MPROPINN=1
Records in the EO strata (90 or above)
Operations with specialty commodities that need ‘special attention’
Method 03 - FO Handling Only; send to field enumerators to call first:
All records with MPROPREF=1 or MPROPINN=1 (or Method 04)
Records in the EO strata (90 or above) (or Method 04)
85/45 records
Records where a partner switch was done sometime throughout the year.
Special contact arrangements made with the operator.
Unless otherwise noted in the comments, these records should be sent to field
enumerators and called at least 3 times before attempting a personal interview.
Method 04 - Mail by PMC – FO Follow up:
All records with MPROPREF=1 or MPROPINN=1 (or Method 03)
Records in the EO strata (90 or above) (or Method 03)
PMC will label 2 questionnaires: 1st set mailed from PMC, 2nd set sent back to the FO
and data collected by Field Enumerators.
Method 05 - Office Hold:
A-7
�Appendix A
Memos regarding targeted data collection
Known zeros
Previous contact agreements
Special situations (dangerous or possible violent situation, etc.)
Method 06 - Coordinated with surveys:
Matches with surveys
During the December Crops/Stocks CALL-OUT:
The report generated in Blaise and sent to you by your DCCs will have the propensity score for
each record. This was put on the sample master with the varname shown in parenthesis. It is
shown on the report at REF and INACC scores.
REF Score and INACC Score
REF Score (MPROPREF)
propensity score – Refusal
(1 - most likely to refuse; 4 - least likely to refuse)
INACC Score (MPROPINN)
propensity score – Innacessible
(1 - most likely to be inaccessible; 5 - least likely to be
inaccessible)
Use the propensity scores and strata to determine which records will have the highest impact on
estimates and are most likely to respond.
- Records in strata 90 and 70-79 with MPROPREF=4 or MPROPINN=5 meet this
criteria.
- County estimates coverage: you may also want to handle records in other strata based
on consideration of how many records have been completed by county for the county
estimates program.
Unless there is an existing appointment, pull those records back from the DCC and send them to
the field for calling.
A-8
�Appendix A
Memos regarding targeted data collection
The DCC/NOC will keep the rest of the records for calling, including all records that have an
existing appointment.
Field Office Feedback (Due Date – 10/05/2012):
FOs will need to provide feedback to Research and complete the following questions.
Did you understand these instructions? If not, what was unclear?
Were you able to use the refusal and inaccessible propensity scores to determine a data collection
plan for each group of records as described? If not, what factors impacted your ability to
implement the plan?
Using the instructions, was the workload reasonable for your office?
If you did not (or could not) use these instructions as written, why not?
Are the instructions similar to what you would have done anyway?
What other information would have been useful on the instructions?
A-9
�Appendix B
Response Rates for treatment and comparison states
The tables in this appendix expand on Tables 3-10 in the body of this report by breaking out
response rates for the treatment states and the comparison states. The table numbers correspond
to the table numbers in the body.
September Results
There were 13,056 total records for the treatment states. 1,507 of the operations in these states
were flagged as highly likely to be a refusal (a refusal nonresponse propensity score of 1). 1,056
of the operations in these states were flagged as highly likely to be an inaccessible (an
inaccessible nonresponse propensity score of 1). For the comparison states, there were 47,264
total records. 3,336 of the operations in these states were flagged as highly likely to be a refusal.
4,291 of the operations in these states were flagged as highly likely to be inaccessible.
Tables B3 and B4 show the response rates for refusals and inaccessibles within the nonresponse
propensity groups for the September 2012 survey. In the treatment states, 22.96 percent of the
1,507 flagged highly likely refusal operations responded to the survey, and 44.32 percent of the
1,056 flagged highly likely inaccessible operations respond to the survey. In the comparison
states, 20.20 percent of the 3,336 flagged likely refusal operations responded to the survey and
37.61 percent of the 4,291 of the flagged likely inaccessible operations responded to the survey.
Table B3: September response rates for refusals within propensity groups
Response
Response
Refusal
N
Rate –
N
Rate –
N
Treatment
Comparison
Score =1
22.96%
20.20%
3,336
4,843
(most likely 1,507
(n=346)
(n=674)
to refuse)
46.65%
53.99%
1,925
5,382
7,307
Score=2
(n=898)
(n=2,906)
59.95%
63.90%
1,468
4,460
5,928
Score=3
(n=880)
(n=2,850)
Score=4
73.12%
78.89%
34,086
42,242
(least likely 8,156
(n=5,964)
(n=26,890)
to refuse)
Total
13,056
47,264
B-1
60,320
Overall
response rate
21.06%
(n=1,020)
52.06%
(n=3,804)
62.92%
(n=3,730)
77.78%
(n=32,854)
�Appendix B
Response Rates for treatment and comparison states
Table B4: September Response Rates for inaccessibles within propensity groups
Response
Response
Inaccessible
N
Rate –
N
Rate –
N
Treatment
Comparison
Score=1 (most
44.32%
37.61%
1,056
4,291
5,347
likely to be
(n=468)
(n=1,614)
inaccessible)
34.85%
46.98%
505
1,575
2,080
Score=2
(n=176)
(n=740)
31.86%
34.84%
769
2,015
2,784
Score=3
(n=245)
(n=702)
65.24%
74.57%
2,376
10,147
12,523
Score=4
(n=1,550)
(n=7,567)
Score=5 (least
67.65%
77.63%
8,350
29,236
37,586
likely to be
(n=5,649)
(n=22,696)
inaccessible)
13,056
47,264
60,320
Total
Overall
response rate
38.94%
(n=2,082)
44.04%
(n=916)
34.02%
(n=947)
72.80%
(n=9,117)
75.42%
(n=28,347)
High impact operations for the purpose of this study were those in strata greater than or equal to
90 (the largest operations) and those in the specialty strata, i.e. strata 70-79, if applicable. There
were 1,108 high impact operations that were flagged as highly likely refusals in the treatment
states, with 19.49 percent responding to the survey. There were 688 high impact operations that
were flagged as highly likely inaccessible in the treatment states. Of the 688 highly likely
inaccessible operations, 41.57 percent responded to the survey. For the comparison states, 1,953
high impact operations were flagged as highly likely refusals, with 17.87 percent completing the
survey. 2,418 high impact operations were flagged as highly likely inaccessibles in the
comparison states, with 37.10 percent completing the survey. See Tables B5 and B6 for direct
comparisons.
B-2
�Appendix B
Response Rates for treatment and comparison states
Table B5: September response rate for all high impact operations within propensity score groups
for refusals
Response
Response
Overall
Refusal
N
Rate –
N
Rate –
N
response
Treatment
Comparison
rate
Score=1
19.49%
17.87%
18.46%
1,108
1,953
3,061
(highly
(n=216)
(n=349)
(n=565)
likely)
47.24%
54.70%
52.53%
1,484
3,629
5,113
Score=2
(n=701)
(n=1,985)
(n=2,686)
63.80%
65.55%
65.08%
848
2,331
3,179
Score=3
(n=5,41)
(n=1,528)
(n=2,069)
Score=4
75.32%
80.46%
79.42%
3,885
15,343
19,228
(least
(n=2,926)
(n=12,345)
(n=15,271)
likely)
Total
7,325
23,256
30,581
Table B6: September response rates for all high impact operations within propensity score
groups for inaccessibles
Response
Response
Overall
Inaccessible
N
Rate –
N
Rate –
N
response
Treatment
Comparison
rate
41.57%
37.10%
38.09%
Score=1
688
2,418
3,106
(n=286)
(n=897)
(n=1,183)
(highly likely)
40.53%
46.63%
44.72%
190
416
606
Score=2
(n=77)
(n=194)
(n=271)
29.30%
32.78%
31.63%
587
1,196
1,783
Score=3
(n=172)
(n=392)
(n=564)
66.10%
75.19%
73.39%
1,525
6,206
7,731
Score=4
(n=1,008)
(n=4,666)
(n=5,674)
65.54%
77.25%
74.32%
Score=5
4,335
13,020
17,355
(n=2,841)
(n=10,058)
(n=12,898)
(least likely)
7,325
23,256
30,581
Total
B-3
�Appendix B
Response Rates for treatment and comparison states
3.1.2 December results
In December, there were 12,265 records for the treatment states. 1,674 of the operations in these
states were flagged as highly likely to be a refusal (a refusal nonresponse propensity score of 1).
988 of the operations in these states were flagged as highly likely to be an inaccessible (an
inaccessible nonresponse propensity score of 1). For the comparison states, there were 60,762
records. 4,311 of the operations in these states were flagged as highly likely to be a refusal. 5,267
of the operations in these states were flagged as highly likely to be inaccessible.
Overall, 14.55 percent of the highly likely to refuse operations responded to the survey. In the
treatment states, 13.26 percent of the 1,674 flagged highly likely refusal operations responded to
the survey and 23.99 percent of the 988 flagged highly likely inaccessible operations responded
to the survey. In the comparison states, 15.05 percent of the 4,311 flagged likely refusal
operations responded to the survey and 30.89 percent of the 5,267 of the flagged likely
inaccessible operations responded to the survey. See Table B7 and B8 for a direct comparison.
Table B7: December 2012 response rates for refusals within propensity groups
Response
Response
Refusal
N
Rate –
N
Rate –
N
Treatment
Comparison
Score =1
13.26%
15.05%
1,674
4,311
5,985
(most likely
(n=222)
(n=649)
to refuse)
41.15%
47.23%
1,706
6,121
7,827
Score=2
(n=702)
(n=2,891)
50.40%
56.91%
1,258
4,874
6,132
Score=3
(n=634)
(n=2,774)
Score=4
67.13%
74.40%
7,627
45,456
53,083
(least likely
(n=5,120)
(n=33,818)
to refuse)
Total
12,265
60,762
B-4
73,027
Overall
response
rate
14.55%
(n=871)
45.91%
(n=3,593)
55.58%
(n=3,408)
73.35%
(n=38,938)
�Appendix B
Response Rates for treatment and comparison states
Table B8: December 2012 response rates for inaccessibles within propensity groups
Response
Response
Inaccessible
N
Rate –
N
Rate –
N
Treatment
Comparison
Score=1 (most
23.99%
30.89%
988
5,267
6,255
likely to be
(n=237)
(n=1,627)
inaccessible)
25.49%
40.48%
401
1,932
2,333
Score=2
(n=104)
(n=782)
24.74%
29.82%
780
2,626
3,406
Score=3
(n=193)
(n=783)
59.58%
69.79%
2,061
10,954
13,015
Score=4
(n=1,228)
(n=7,645)
Score=5 (least
61.18%
73.27%
8,035
39,983
48,018
likely to be
(n=4,916)
(n=29,295)
inaccessible)
Total
12,265
60,762
Overall
response
rate
29.80%
(n=1,864)
37.98%
(n=886)
28.66%
(n=976)
68.18%
(n=8,873)
71.25%
(n=34,211)
73,027
As in September, high impact operations for the purpose of the December study were those
operations with strata values greater than or equal to 90 and the specialty strata (70-79). Overall,
12.28 percent of the high impact operations that were flagged as highly likely refusals responded
to the survey. There were 1,093 high impact operations that were flagged as highly likely
refusals in the treatment states. Of the 1,093 highly likely refusal operations, 11.99 percent
responded to the survey. There were 628 high impact operations that were flagged as highly
likely inaccessible in the treatment states. Of the 628 highly likely inaccessible operations, 21.66
percent responded to the survey. For the comparison states, 2,612 high impact operations were
flagged as highly likely refusals. Of those 2,612 operations, 12.40 percent completed the survey.
3,104 high impact operations were flagged as highly likely inaccessible in the comparison states.
Of those 3,104 operations, 30.80 percent completed the survey. See Tables B9 and B10 for direct
comparisons.
B-5
�Appendix B
Response Rates for treatment and comparison states
Table B9: December 2012 Response Rate for all high impact operations within propensity
groups for refusals
Response
Response
Overall
Refusal
N
Rate –
N
Rate –
N
rate
Treatment
Comparison
11.99%
12.40%
12.28%
Score=1
1,093
2,612
3,705
(n=131)
(n=324)
(n=455)
(highly likely)
41.06%
48.33%
46.68%
1,230
4,204
5,434
Score=2
(n=505)
(n=2,032)
(n=2,537)
50.88%
57.91%
56.38%
739
2,642
3,381
Score=3
(n=376)
(n=1,530)
(n=1,906)
66.68%
75.72%
74.43%
Score=4 (least
3,418
20,669
24,087
(n=2,279)
(n=15,650)
(n=17,929)
likely)
6,480
30,127
36,607
Total
Table B10: December 2012 response rates for all high impact operations within response
propensity groups for inaccessibles
Response
Response
Overall
Inaccessible
N
Rate –
N
Rate –
N
rate
Treatment
Comparison
21.66%
30.80%
29.26%
Score=1
628
3,104
3,732
(n=136)
(n=956)
(n=1,092)
(highly likely)
18.29%
38.59%
34.28%
164
609
773
Score=2
(n=30)
(n=235)
(n=265)
22.84%
26.63%
25.70%
521
1,592
2,113
Score=3
(n=119)
(n=424)
(n=543)
58.46%
70.65%
68.77%
1,247
6,868
8,115
Score=4
(n=729)
(n=4,852)
(n=5,581)
58.09%
72.79%
70.16%
Score=5 (least
3,920
17,954
21,874
(n=2,277)
(n=13,069)
(n=15,346)
likely)
Total
6,480
30,127
B-6
36,607
�Appendix C
State level predicted vs. actual response rates
Table C1: September Actual and Predicted Response Rates for the Treatment States (for highly
likely to nonrespond operations)
Refusals
Inaccessibles
Predicted
Actual
Difference
Difference
Predicted
Actual RR
RR for
RR for
(Actual(ActualState
RR for
for NRP=1
NRP=1
NRP=1
Predicted)
Predicted)
NRP=1 (%)
(%)
(%)
(%)
(%)
(%)
28.55
18.12
-10.43
32.9
40.93
8.03
KS
NE
21.9
32.15
10.25
48.55
45.56
-2.99
ND
17.5
11.61
-5.89
21.55
35.54
13.99
MI
31.3
53.01
21.71
40.05
60.87
20.82
MD
22.05
30.16
8.11
35.35
43.72
8.37
NH
(NewEng)
FL
14.3
16.67
2.37
36.9
48.65
11.75
20.15
29.41
9.26
39.5
60.71
21.21
SC
33.4
25.93
-7.47
39.5
35.19
-4.31
IA
28.25
25.40
-2.85
35.25
42.59
7.34
-
-
2.78
-
-
9.36
Average
The predicted response rate was calculated by averaging training and validation for the
state models
In five out of the nine treatment states (56 percent), actual response rates were higher than the
predicted nonresponse rates for refusals, suggesting that these states were able to increase
response for their likeliest refusals. Typically, the difference between the predicted and actual
response rates for these states was at or below ten percent. The exception is Michigan with a
difference of about +22. However, four of the states (44 percent) had a decrease in response
rates, all about 10 percent or less, with the average difference for refusals of 2.78.
In seven of the nine treatment states (78 percent), the actual response rates were higher than the
predicted nonresponse rates for inaccessible cases, while two states (22 percent) had a decrease
in predicted response rates for the inaccessibles. The average magnitude of the difference for
inaccessible cases is 9.36.
C-1
�Appendix C
State level predicted vs. actual response rates
Table C2: September 2012 Actual and Predicted Response Rates for Comparison States (for
highly likely to nonrespond operations)
AL
Predicted
RR for
NRP=1
(%)
26.5
Refusals
Actual
RR for
NRP=1
(%)
22.22
Inaccessibles
Difference
(ActualPredicted)
(%)
-4.28
AZ
28.1
23.08
AR
19.2
CA
Predicted
RR for
NRP=1 (%)
Actual RR
for NRP=1
(%)
22.22
62.07
Difference
(ActualPredicted)
(%)
39.85
-5.02
23.08
33.33
10.25
19.54
0.34
19.54
34.50
14.96
15.85
54.69
38.84
54.69
53.76
-0.93
CO
19.05
19.01
-0.04
19.01
29.29
10.28
GA
30.1
41.86
11.76
41.86
57.45
15.59
ID
41.45
8.74
-32.71
8.74
23.96
15.22
IL
36.65
23.16
-13.49
23.16
35.0
11.84
IN
19.25
25.37
6.12
25.37
51.47
26.1
KY
25.15
33.33
8.18
33.33
39.47
6.14
LA
34.65
10.64
-24.01
10.64
43.08
32.44
MN
25.7
11.11
-14.59
11.11
32.61
21.5
MS
37.9
28.13
-9.77
28.13
58.49
30.36
MO
17.85
17.18
-0.67
17.18
25.38
8.2
MT
26.9
14.29
-12.61
14.29
26.76
12.47
NV
5.75
28.57
22.82
28.57
18.18
-10.39
NJ
22.05
22.22
0.17
22.22
34.62
12.4
NM
47.45
86.36
38.91
86.36
75.93
-10.43
NY
28.2
29.17
0.97
29.17
49.41
20.24
State
C-2
�Appendix C
State level predicted vs. actual response rates
NC
Predicted
RR for
NRP=1
(%)
28.5
Refusals
Actual
RR for
NRP=1
(%)
25.81
Difference
(ActualPredicted)
(%)
-2.69
Inaccessibles
OH
33.35
25.0
OK
49.3
OR
Predicted
RR for
NRP=1 (%)
Actual RR
for NRP=1
(%)
25.81
43.53
Difference
(ActualPredicted)
(%)
17.72
-8.35
25.0
34.86
9.86
28.68
-20.62
28.68
39.16
10.48
38.8
7.69
-31.11
7.69
23.16
15.47
PA
30.2
41.03
10.83
41.03
59.04
18.01
SD
25.45
21.34
-4.11
21.34
37.97
16.63
TN
36.05
22.58
-13.47
22.58
49.23
26.65
TX
23.0
18.66
-4.34
18.66
33.56
14.9
UT
21.45
26.92
5.47
26.92
49.21
22.29
VA
17.85
18.42
0.57
18.42
33.61
15.19
WA
15.7
9.21
-6.49
9.21
18.46
9.25
WVA
55.35
33.33
-22.02
33.33
40.0
6.67
WI
28.1
6.96
-21.14
6.96
20.89
13.93
WY
52.6
8.62
-43.98
8.62
22.22
13.6
State
-4.60
14.67
Average
Predicted response rates were calculated by averaging training and validation for the state
models
For highly likely to nonrespond operations, the model predicted a national response rate of 37.98
for refusals and a national response rate of 52.37 for inaccessibles.
C-3
�Appendix C
State level predicted vs. actual response rates
Table C3: December 2012 Actual and Predicted Response Rates for the Treatment States (for
highly likely to nonrespond operations)
KS
Predicted
RR for
NRP=1
(%)
28.55
Refusals
Actual
RR for
NRP=1
(%)
11.14
Difference
(ActualPredicted)
(%)
-17.41
NE
21.90
16.71
ND
17.5
MD
NH
(NewEng)
FL
State
Average
Inaccessibles
Predicted
RR for
NRP=1 (%)
Actual RR
for NRP=1
(%)
32.9
20.06
Difference
(ActualPredicted)
(%)
-12.84
-5.19
48.55
23.71
-24.84
12.38
-5.12
21.55
25.41
3.86
22.05
8.33
-13.72
35.35
23.98
-11.37
14.3
20.83
6.53
36.9
23.08
-13.82
21.05
57.14
36.09
39.5
68.00
28.5
-
-
0.20
-
-5.09
From Table C3 above, we can see that typically the actual response rate for refusals and
inaccessibles are less than the predicted response rate with the exception of the New England
states and Florida for refusals and North Dakota and Florida for the inaccessibles.
Table C4: December 2012 Actual and Predicted Response Rates for Comparison States (for
highly likely to nonrespond operations)
AL
Predicted
RR for
NRP=1
(%)
26.5
Refusals
Actual
RR for
NRP=1
(%)
20.97
Difference
(ActualPredicted)
(%)
-5.53
AZ
28.1
22.22
AR
19.2
CA
CO
State
Inaccessibles
Predicted
RR for
NRP=1 (%)
Actual RR
for NRP=1
(%)
22.22
43.06
Difference
(ActualPredicted)
(%)
20.84
-5.88
23.08
33.33
10.25
29.17
9.97
19.54
51.41
31.87
15.85
16.94
1.09
54.69
33.16
-21.53
19.05
8.61
-10.44
19.01
24.09
5.08
C-4
�Appendix C
State level predicted vs. actual response rates
GA
Predicted
RR for
NRP=1
(%)
30.1
Refusals
Actual
RR for
NRP=1
(%)
18.97
Difference
(ActualPredicted)
(%)
-11.13
Inaccessibles
IA
28.25
16.57
ID
41.45
IL
Predicted
RR for
NRP=1 (%)
Actual RR
for NRP=1
(%)
41.86
25.61
Difference
(ActualPredicted)
(%)
-16.25
-11.68
35.25
21.15
-14.10
6.67
-34.78
8.74
20.46
11.72
36.65
16.85
-19.80
23.16
31.54
8.38
IN
19.25
21.69
2.44
25.37
36.97
11.6
KY
25.15
23.18
-1.97
33.33
28.85
-4.48
LA
34.65
21.05
-13.6
10.64
53.76
43.12
MI
31.3
20.00
-11.3
40.05
6.12
-33.93
MN
25.7
9.45
-16.25
11.11
25.68
11.47
MS
37.9
8.10
-29.8
28.13
49.13
21.0
MO
17.85
17.30
-0.55
17.18
26.16
8.98
MT
26.9
15.86
-11.04
14.29
30.56
16.27
NV
5.75
11.11
5.36
28.57
0.00
-28.57
NJ
22.05
28.57
6.52
22.22
47.82
25.6
NM
47.45
36.00
-11.45
86.36
57.58
-28.78
NY
28.2
16.36
-11.84
29.17
16.35
-12.82
NC
28.5
11.36
-17.14
25.81
36.92
11.11
ND
17.5
12.38
-5.12
11.61
25.41
13.80
OH
33.35
22.92
-10.43
25.0
47.87
22.87
OK
49.3
17.55
-31.75
28.68
28.98
0.30
State
C-5
�Appendix C
State level predicted vs. actual response rates
OR
Predicted
RR for
NRP=1
(%)
38.8
Refusals
Actual
RR for
NRP=1
(%)
10.14
Difference
(ActualPredicted)
(%)
-28.66
Inaccessibles
PA
30.2
24.24
SC
33.4
SD
Predicted
RR for
NRP=1 (%)
Actual RR
for NRP=1
(%)
7.69
19.31
Difference
(ActualPredicted)
(%)
11.62
-5.96
41.03
47.66
6.63
34.38
1.02
39.50
57.44
17.44
25.45
6.79
-18.66
21.34
8.82
-12.52
TN
36.05
7.84
-28.21
22.58
51.52
28.94
TX
23.0
17.34
-5.66
18.66
32.28
13.62
UT
21.45
10.71
-10.74
26.92
15.38
-11.54
VA
17.85
11.54
-6.31
18.42
28.93
10.51
WA
15.7
12.35
-3.35
9.21
18.03
8.82
WVA
55.35
14.29
-41.06
33.33
13.64
-19.69
WI
28.1
14.29
-13.81
6.96
19.58
12.62
WY
52.6
17.91
-34.69
8.62
32.08
23.46
-
-
-11.95
-
-
5.51
State
Average
For highly likely to nonrespond operations, the model predicted a national response rate of 37.98
for refusals and a national response rate of 52.37 for inaccessibles.
C-6
��
| File Type | application/pdf |
| Author | Ott, Kathy - NASS |
| File Modified | 2015-03-03 |
| File Created | 2015-03-03 |