Increasing response rate in industrial mail surveys: the effect of respondent involvement in sweepstakes incentive.
Kim, Cue D. ; Dant, Shirish ; Lee, C. Christopher 等
INTRODUCTION
One of the problems facing industrial marketers collecting primary
data via mail surveys is that such research procedures suffer from low
response rates which affect nonresponse errors. Historically, industrial
mail surveys have been criticized for inadequate response rates, which
are usually lower than both telephone and face-to-face modes. In spite
of lower cost and wider coverage of subjects, low response rates of mail
surveys make data analysis difficult and restrict generalization of
results (Suchman, 1940; Toops, 1926).
Recently, considerable research has been devoted to developing
techniques to improve mail survey response rates. Farrell and Elken have
suggested that five main variables of survey design have impact on the
response rates: contact, incentive, reward, length, and prose (Farrell,
1994). The difference in color of survey stationary has been also tested
in terms of response rates (Greer, 1994).
Sweepstakes as Incentives
Sweepstakes have been popularly used as a form of incentive to
respondents. A number of studies (e.g. Balakrishnan, 1992) have tested
the effectiveness of sweepstakes, and found that prize giveaway
sweepstakes are cost-effective in increasing response rates. When a
survey involves a very large sample, sweepstakes are considered more
cost effective to increase response rate than other approaches such as
pre-notification, follow-up contacts, and monetary incentives (Fox,
1988; Greer, 1994; Kanuk, 1975; Linsky, 1975 & Scott, 1961).
Involvement
According to McKee (McKee, 1992), sample respondents who are
involved with the survey topic are more likely to respond. Respondent involvement can be stimulated by appealing to personal interest,
perceived importance, or expected benefit. Respondents who have high
interest in the survey topic are almost twice as likely to participate,
and also are less likely to omit questions (Martin, 1994). Similarly, a
high correlation has been reported between subject involvement and their
motivation to participate (Lord, 1994). Thus, there exists ample
evidence indicating that surveys designed to stimulate respondent
involvement will produce higher response rate. This extant research has
examined the effect of respondent involvement in subject matter or
content of survey on response rate. There has been no extension of these
findings to examine the effect on response rate of respondent
involvement in the incentives used in industrial mail surveys.
Sweepstakes with involvement
It is very difficult to assure that a survey is designed to appeal
to the interests of all potential respondents in a large sample.
Limiting the mail survey to those who are interested in the survey topic
is not practical, either. One way of increasing respondent involvement
is to make the survey more interesting and attractive by using
incentives, sweepstakes being one of the popular methods. As mentioned
earlier, sweepstakes are cost effective, and their effectiveness can be
enhanced if they are combined with ways to increase respondent
involvement. Since effectiveness of direct mail has been found to be
increased when creativity is combined with other incentives (Offitzer,
1994), it should follow that if a mail survey combines sweepstakes with
creativity to increase respondent involvement, its response rate would
be higher. Although past studies have confirmed the effectiveness of
involvement and sweepstakes separately, the idea of combining
involvement with sweepstakes has not been empirically tested.
This paper examines the idea that respondent involvement in
sweepstakes increases response rate of mail survey by inducing a high
level of initial interest from respondents. A new approach of
high-involvement sweepstakes is developed and tested with a control
group presented with conventional non-involvement sweepstakes. Our
objective is to empirically test whether creative and slightly more
complicated sweepstakes produce higher response rate than simple
conventional sweepstakes. Section 2 explains the research procedure
including survey design and sampling, and it is followed by data
analysis in Section 3. Findings are discussed in Section 4, and
concluding remarks are in Section 5.
METHODOLOGY
Sampling
A nationwide random sample of 1,870 automobile tire replacement
dealers from a yellow page listing service was drawn on an n-th name
basis. Since yellow page lists are alphabetically arranged, in order to
avoid over-representation of similar names, the list was first sorted by
the second letter of dealer names, and then n-th name basis systematic
sampling was performed. The whole sample was then divided into half (935
each), and two identical sets of surveys but with different sweepstakes
rules were sent to each group. A sample with involvement sweepstakes is
the test group, and the other sample with conventional sweepstakes is
the control group. From here on, control and test groups will be used to
identify each sample.
Sweepstakes
While conventional sweepstakes typically use a random drawing of
the winners from the respondents as shown in Exhibit 1, the rules for
involvement sweepstakes of this study ask respondents to select a prize
of their choice from a list of available prizes.
The respondents of the test group are informed that their chance of
winning depends on how many other respondents pick the same prize. This
cue is intended to enhance respondents' involvement in the
sweepstakes process. This is achieved by making respondents actively go
through a decision making process in which they evaluate their chances
of winning. By noting that their chances of winning depend on their own
decision making, their interest and enthusiasm, and hence involvement,
in the sweepstakes is made high. Exhibit 2 shows the sweepstakes with
involvement.
Twenty golf clubs of four different kinds were offered as
sweepstakes prizes to each sample. The decision to offer golf clubs as
prizes was made after conducting a pilot study of 22 managers or owners
of tire dealers in a major Midwestern city in the U.S.
Data Collection
One hundred and ninety-six (196) questionnaires were returned in
three weeks after the mailing. Four of them were unusable, therefore,
192 responses are used in data analysis.
Exhibit 3 shows the number of responses in each group. Some
respondents who completed the survey did not return the cover letter
which was required to make them eligible for sweepstakes entry. These
respondents are categorized as 'no-entry' group. This no-entry
group is excluded from the nonresponse error analysis.
ANALYSIS
Response Rate
To investigate the difference between the two groups with different
sweepstakes rules, a simple t-test was performed. The result shown in
Table 1 indicates that the test group produced a significantly higher
response rate and lower nonresponse error than the control group. Even
though the overall response rate was 10.3%, which is about the average
for industrial mail surveys, the result of this study is intriguing because the difference in response rates between two groups is
statistically significant.
Response Error
Since missing values are a major source of response error, the
number of cases that have missing values is used to measure the error
for each group. Table 2 shows response errors of each group and the
comparison between control and test groups. It is found that the test
group has a significantly lower response error than the control group.
In other words, respondents with involvement in sweepstakes are less
likely to omit questions. This result is consistent with Martin's
study (Martin, 1994) of response error and respondent involvement in
survey topic.
Response Speed
Since a speedy response is also an important aspect of mail surveys
(Brennan, 1992), the speed of responses of the two groups are also
compared. Exhibit 4 shows the number of responses received within the
first three weeks. The response rates of all three groups (test,
control, and no-entry groups) dropped almost to zero after two weeks,
but the test group had clearly more early responses that also came in at
a higher rate than the other group.
This suggests that the sample with high involvement in the
sweepstakes is more likely to respond quickly, which is consistent with
the findings of Brennan and Hoek on incentives and response speed
(Brennan, 1992).
[GRAPHIC OMITTED]
DISCUSSION
Our analysis suggests that, in industrial mail surveys,
respondents' involvement in commonly used incentives like
sweepstakes has a positive effect on response rate. The response rate
from the test group (treated to high-involvement sweepstakes) is
significantly higher than that from the control group (treated to
conventional sweepstakes). The response speed is also faster from the
first group.
The reason for this higher and faster response in the test group is
due to respondents' higher expectation to win, which in turn
increases their involvement. The wordings in the cover letter explaining
the rules of the sweepstakes are designed to lead respondents to
speculate that they have a higher chance of winning if they select a
prize item which, in their opinions, fewer other people would pick (see
Exhibit 2). Respondents have a stronger incentive to respond when given
a chance to choose their prize and influence their likelihood of
winning.
The issue of response error is critical in this type of setting
because there is a possibility that the sweepstakes incentive could lead
respondents to fill out the survey in a careless manner just to enter
the sweepstakes. If that is the case, the effort to increase response
rate can be undermined by a large number of missing values and thus high
response error. Fortunately, the analysis shows that the test group has
significantly lower response error, suggesting that the design of
sweepstakes used in this study is effective.
CONCLUDING REMARKS
The purpose of the study was to empirically test the extent to
which response rate from industrial mail surveys increases when the
survey instrument is accompanied by sweepstakes incentive in which
potential respondents are made involved. Respondents, presented with
high involvement sweepstakes, are more likely to respond, respond
promptly, and are less likely to omit questions. As a result, the use of
involvement sweepstakes improves response rate and reduces response
error, thereby increasing the effectiveness of the survey.
Future studies should focus on other creative methods of increasing
respondents' involvement and interest for more cost-effective
survey design. This may be extended beyond mail surveys to other types
of research settings, such as telephone interviews, face-to-face
interviews, on-line surveys, and so on. Future research should also
investigate the effectiveness of using different rewards for samples of
different characteristics, and the combined impact of multiple
incentives on response rate.
In summary, this study has shown how the effectiveness of surveys
can be improved by using creative techniques. By increasing the level of
involvement and interest of respondents, the cost effectiveness of the
survey can be improved. Researchers can enhance the response rate of
their surveys by using such creative techniques to involve potential
respondents.
REFERENCES
Balakrishnan, P.V., Chawla, S.K., Smith, M.F. & Michalski, B.P.
(1992). Mail survey response rates using a lottery prize giveaway
incentive. Journal of Direct Marketing, 6(3), 54-59.
Brennan, M. & Hoek, J. (1992). The behavior of respondents,
nonrespondents, and refusers across mail surveys. Public Opinion
Quarterly, 56(4), 530-535.
Farrell, B. & Elken, T. (1994). Adjust five variables for
better mail survey. Marketing News, 28(18), 20.
Fox, R. J., Crask, M. R. & Kim, J. (1988). Mail survey response
rate: A meta-analysis of selected techniques for inducing response.
Public Opinion Quarterly, 52, 467-491.
Greer, T. V. & Lohtia, R. (1994). Effects of source and paper
color on response rates in mail surveys. Industrial Marketing
Management, 23(1), 47-54.
Herberlein, T. A. & Baumgartner, R. (1978). Factors affecting
response rates to mailed questionnaire: A quantitative analysis of the
published literature. American Sociology Review, 43, 447-462.
Kanuk, L. & Berenson, C. (1975). Mail surveys and response
rates: A literature review. Journal of Marketing Research, 12(4),
440-453.
Linsky, A. S. (1975). Stimulating responses to mailed
questionnaires: A review. Public Opinion Quarterly, 34, 82-101.
Lord, K. R., Lee, Myung-Soo & Sauer, P. L. (1994). Program
context antecedents of attitude toward radio commercials. Journal of
Academy of Marketing Science, 22(1), 3-15.
Martin, C. L. (1994). The impact of topic interest on mail survey
response behavior. Journal of the Market Research Society, 36(4),
327-338.
McKee, D. O. (1992). The effect of using a questionnaire
identification code and message about non-response follow-up plans on
mail survey response characteristics. Journal of Market Research
Society, 34(2), 179-191.
Offitzer, K. (1994). Letter perfect. Incentive, 168(4), 55-62.
Scott, C. (1961) Research on mail Surveys, Journal of The Royal
Statistical Society, Series A (General), 124, 143-205.
Suchman, E. A. & McCandless, B. (1940). Who answers
questionnaires? Journal of Applied Psychology, 24, 758-769.
Toops, H. A. (1926). Returns from follow-up letters to
questionnaires. Journal of Applied Psychology, 10, 92-101.
Cue D. Kim, Drake Beam Morin Korea, Inc., The Republic of Korea
Shirish Dant, The Gallup Organization
C. Christopher Lee, Central Washington University
Yun-Oh Whang, University of Central Florida
TABLE 1
Groupwise Response Rates
Conventional Involvement
Sweepstakes Sweepstakes
(Control (Test
Group) Group)
Sample Size 935 935
Responses 63 95
Response Rate 6.73% 10.16%
p-value * 0.0039
* one-tail t-test for difference of response rates
between two groups.
TABLE 2
Groupwise Response Errors
Conventional Involvement
Sweepstakes Sweepstakes
(Control (Test
Group) Group)
Sample Size 63 95
Cases with Missing Values 7 4
Response Error 11.11% 4.21%
p-value * 0.0476
* one-tail t-test for difference of response errors between
two groups.
EXHIBIT 1
Conventional Sweepstakes
In an appreciation for your participation in this study,
we are going to enter your name in a sweepstake to give
away the following golf clubs as prizes. The first 5 picks
will receive the Grand Prize, and the following 3 groups
of 5 winners will receive the 1st to 3rd Prizes.
Place Prize Quantity
Available
Grand Prize #1 Wood Driver 5
1st Prize #1 Iron 5
2nd Prize Putter 5
3rd Prize Sand Wedge 5
EXHIBIT 2
Sweepstakes with Involvement
In an appreciation for your participation in this study, we are
going to enter your name in a sweepstake to give away the
following golf clubs as prizes. You are asked to choose one of
the prizes in the table below, and your chance of winning
depends on how many other respondents pick the same prize. For
example, if only 5 respondents pick #1 Iron (Choice 2) each
automatically wins the prize without drawing. If more than 5
pick the same prize category, winners will be decided by random
drawing from respondents who pick the category.
Prize Quantity Please mark your choice.
Available
#1 Wood Driver 5
#1 Iron 5
Putter 5
Sand Wedge 5
EXHIBIT 3. Number of Responses
No-Entry to
Sweepstakes 34
Conventional
Sweepstakes
(Control Group) 63
Sweepstakes
with Involvement
(Test Group) 95
Note: Table made from bar graph.
