Hostname: page-component-cd9895bd7-mkpzs Total loading time: 0 Render date: 2024-12-26T14:59:02.732Z Has data issue: false hasContentIssue false

A randomized experiment evaluating survey mode effects for video interviewing

Published online by Cambridge University Press:  01 August 2022

Kyle Endres*
Affiliation:
University of Northern Iowa, Cedar Falls, IA, USA
D. Sunshine Hillygus
Affiliation:
Duke University, Durham, NC, USA
Matthew DeBell
Affiliation:
Stanford University, Stanford, CA, USA
Shanto Iyengar
Affiliation:
Stanford University, Stanford, CA, USA
*
*Corresponding author. Email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Rising costs and challenges of in-person interviewing have prompted major surveys to consider moving online and conducting live web-based video interviews. In this paper, we evaluate video mode effects using a two-wave experimental design in which respondents were randomized to either an interviewer-administered video or interviewer-administered in-person survey wave after completing a self-administered online survey wave. This design permits testing of both within- and between-subject differences across survey modes. Our findings suggest that video interviewing is more comparable to in-person interviewing than online interviewing across multiple measures of satisficing, social desirability, and respondent satisfaction.

Type
Original Article
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press on behalf of the European Political Science Association

Although in-person, face-to-face interviewing has long been considered the “gold standard” survey interviewing mode, the logistical and financial challenges are well-documented. Declining survey cooperation in recent decades has dramatically increased the labor and travel costs for in-person surveys (Couper, Reference Couper2011), prompting even major government and academic surveys to consider alternative survey modes. For example, the American National Election Studies (ANES) now routinely supplement their in-person surveys with an additional sample of self-administered online interviews, combining modes in their data releases. Recent comparisons of these different ANES samples have raised concerns about data comparability between the self-administered online mode and the interviewer-administered in-person mode (e.g., Atkeson et al., Reference Atkeson, Adams and Alvarez2014; Homola et al., Reference Homola, Jackson and Gill2016; Atkeson and Adams, Reference Atkeson, and Adams, Atkeson and Alvarez2018; Guay et al., Reference Guay, Hillygus and Valentino2019; Valentino et al., Reference Valentino, Zhirkov, Hillygus and Guay2020).

Improvements in Internet speed and access in recent years have prompted interest in the feasibility of a video interviewing mode—live, interviewer-administered surveys over an online platform such as Skype, Zoom, and WebEx (e.g., West et al., Reference West, Ong, Conrad, Schober, Larsen and Hupp2021)—as a lower cost alternative to in-person interviews.Footnote 1 After the COVID-19 pandemic halted in-person interviewing, the ANES and the European Social Survey (ESS) incorporated a video mode without a clear understanding of the implications for data quality and comparability, highlighting the need for research assessing video interviewing mode effects.

Scholars have speculated about the promise of video interviewing (Anderson, Reference Anderson, Conrad and Schober2008; Couper, Reference Couper2011; Jeannis et al., Reference Jeannis, Terry, Heman-Ackah and Price2013; Hanson, Reference Hanson2021; West et al., Reference West, Ong, Conrad, Schober, Larsen and Hupp2021), but the field lacks sufficient evidence about the advantages and disadvantages of video interviewing for large-scale survey research. Such an evaluation will necessarily require both an assessment of the operational hurdles for this mode of interviewing (e.g., Conrad et al., Reference Conrad, Schober, Hupp, West, Larsen, Ong and Wang2020; Schober et al., Reference Schober, Conrad, Hupp, Larsen, Ong and West2020; Okon et al., Reference Okon, Schober, Conrad, Hupp, Ong and Larsen2021) and an understanding of any mode effects that could impact data quality or research findings.Footnote 2 The latter goal is the focus of this paper.

Unfortunately, the vast majority of mode studies in the field cannot precisely isolate mode effects because interview mode is typically conflated with other survey design features, such as sample selection or non-response (see discussion in Gooch and Vavreck, Reference Gooch and Vavreck2019).Footnote 3 We thus conduct a small, but carefully designed, two-wave experiment in which respondents were randomly assigned to either an in-person or video survey wave after recruitment, consent, and completion of a self-administered online survey wave. The questionnaires include identical questions, thus allowing both a within-subject and a between-subject estimate of video mode effects. The between-subject comparison tests for any differences between video and in-person interviewing. Across multiple measures of satisficing, social desirability, and respondent satisfaction, we find no significant differences between the two interviewer-administered modes. In contrast, the within-subject comparison across waves consistently finds lower levels of satisficing in the interviewer-administered (video or in-person) wave than in the self-administered online wave. The within-subject comparison also finds some evidence that the interviewer-administered modes have higher levels of social desirability bias, but these effects are small and, more importantly, comparable for the video and in-person modes.

1. Background and expectations

The public's familiarity and use of video technology has markedly increased during the COVID-19 pandemic. Social distancing guidelines and public health mandates have meant that everything from work meetings to medical visits, happy hours, and holiday celebrations have moved online to video platforms like Skype, Zoom, or WebEx. Zoom, for instance, averaged more than 300 million daily meeting participants in December 2020, a 2900 percent increase over the previous year.Footnote 4 The integration of online video into work and social life for many across the globe raises the possibility of live video interviewing as a replacement or supplement for the in-person interviewing mode. A sizeable part of the data collection costs of in-person surveys accrues from interviewer travel, housing, and salary while in the field; reducing or eliminating interviewer household visits can result in significant cost savings.

Video technologies have been in use for a number of years now in qualitative research. Focus groups (Forrestal et al., Reference Forrestal, D'Angelo and Vogel2015), in-depth interviews (Janghorban et al., Reference Janghorban, Roudsari and Taghipour2014), and college admissions (Ballejos et al., Reference Ballejos, Oglesbee, Hettema and Sapien2018; Pasadhika et al., Reference Pasadhika, Altenbernd, Ober, Harvey and Miller2012) are just a few areas in which video interviews have sometimes replaced in-person interviews with equivalency in the observed outcomes. The successful use of video interviews in these diverse settings suggests that incorporating video into the data collection process could be a promising avenue for conducting survey interviews, especially when considering the reduced financial, geographic, and time barriers associated with video compared to in-person interviews (Sullivan, Reference Sullivan2012; Janghorban et al., Reference Janghorban, Roudsari and Taghipour2014). Video interviewing is not yet a routine interviewing mode for the survey industry, but survey methodologists have started to evaluate the operational and methodological considerations of relevance for video interviewing (Conrad et al., Reference Conrad, Schober, Hupp, West, Larsen, Ong and Wang2020; Schober et al., Reference Schober, Conrad, Hupp, Larsen, Ong and West2020; West et al., Reference West, Ong, Conrad, Schober, Larsen and Hupp2021). Effective incorporation of live video interviewing into large-scale survey research will require evaluation of both the logistical challenges to implementing video interviews as well as any potential mode effects that could impact data quality or comparability, especially for time series projects like the ANES and ESS.

The evaluation of video mode effects presented here builds on and contributes to a broad literature on survey mode effects. The growth in online surveys, in particular, spawned an extensive body of research comparing online surveys to alternative data collection modes (see Baker et al., Reference Baker, Blumberg, Brick, Couper, Courtright, Dennis, Dillman, Frankel, Garland, Groves, Kennedy, Krosnick and Lavrakas2010 for a review). This research sometimes finds mode differences (Yeager et al., Reference Yeager, Krosnick, Chang, Javitz, Levendusky, Simpser and Wang2011) and sometimes does not (Revilla and Saris, Reference Revilla and Saris2013; Ansolabehere and Schaffner, Reference Ansolabehere, Schaffner, Atkeson and Alvarez2018). For example, a series of mode studies in the ESS identified significant differences between the self-administered online mode and interviewer-administered in-person mode for 70 percent of the questions on the instrument (Villar and Fitzgerald, Reference Villar, Fitzgerald and Breen2017). By contrast, a mode study in the Netherlands found only modest differences between a self-administered online mode and interviewer-administered in-person mode (Revilla and Saris, Reference Revilla and Saris2013). Generally, then, previous research suggests that large survey mode effects are possible, but not inevitable—highlighting the need to evaluate any potential video mode effects.

In assessing mode effects, comparisons often focus on outcomes related to data quality, including indicators of satisficing and social desirability bias (e.g., Holbrook et al., Reference Holbrook, Green and Krosnick2003; Atkeson and Adams, Reference Atkeson, and Adams, Atkeson and Alvarez2018). Satisficing occurs when respondents exert less cognitive effort than needed to generate a thoughtful survey response from the survey answering process—interpreting the meaning and intent of each question, retrieving relevant information from memory, integrating that information into a summary judgment, and reporting that judgment accurately (Krosnick, Reference Krosnick1991). Satisficing impacts the integrity of survey estimates by introducing random or systematic error into the survey response. Common metrics of satisficing include speeding, item non-response, and a lack of differentiation in responses (also known as “straightlining”). Social desirability bias, another focus of mode studies, refers to the tendency of some respondents to deliberately underreport socially undesirable attitudes and behaviors or overreport outcomes that are more desirable. It is thought that some respondents will intentionally lie to comply with social norms. In political surveys, social desirability bias is commonly associated with the measurement of racial attitudes, voter turnout, and news consumption.

Although the field lacks a comprehensive understanding of video mode effects, the broader literature on mode effects points to expected similarities and differences with other survey interviewing modes. Prior research suggests that the presence or absence of a human interviewer is one of the most important characteristics of the survey experience (Klausch et al., Reference Klausch, Hox and Schouten2013; Atkeson and Adams, Reference Atkeson, and Adams, Atkeson and Alvarez2018).Footnote 5 A survey interview can be conceptualized as a conversation—an interaction between an interviewer and respondent—and the presence of the interviewer fundamentally shapes the nature and context of that conversation and ensuing survey responses. As Atkeson and Adams, (Reference Atkeson, and Adams, Atkeson and Alvarez2018: 65) explain, “contextual cues present in a survey differ depending on their presentation and the presence or absence of an interviewer. In this way, whether the survey is administered by the interviewer or by the respondent may influence respondent answers, potentially creating mode biases that can lead to problems of inference if not handled correctly.” As just one example, research has documented the impact of interviewer race on reported racial attitudes (e.g., Davis, Reference Davis1997; Liu and Wang, Reference Liu and Wang2016).

Given the important role of the interviewer, we might expect the interviewer-administered video mode to more closely mimic an interviewer-administered in-person mode than a self-administered online mode. That is, video interviewing should show similar levels of satisficing to in-person interviews and less satisficing than self-administered online interviews. Respondents should take fewer “mental shortcuts” when answering questions from an interviewer, even if the interview is happening through a video platform. At the same time, the presence of the interviewer could also activate social norms, thereby increasing social desirability bias in the video mode compared to the self-administered online mode.

While the previous literature offers strong theoretical claims about these potential mode differences, the existing empirical evidence is less clear than one might expect. For example, research finds differences in satisficing and social desirability across telephone and in-person modes, even though both are interviewer administered (Holbrook et al., Reference Holbrook, Green and Krosnick2003). There is also considerable variation across and even within different surveys. Some work finds more item non-response (Lesser et al., Reference Lesser, Newton and Yang2012) or more straightlining (Conrad et al., Reference Conrad, Schober, Hupp, West, Larsen, Ong and Wang2020) in self-administered than interviewer-administered modes, while others find no differences (Vavreck, Reference Vavreck2014). Examinations of the 2012 ANES documented mode differences in non-response, but with item non-response patterns varying across substantive topics; the in-person sample had lower non-response rates on abortion questions, but higher non-response on the gay rights questions compared to the online sample (Liu and Wang, Reference Liu and Wang2016; Liu Reference Liu2018). And while several studies have found higher levels of socially stigmatized attitudes and behaviors in self-administered surveys compared to interviewer-administered surveys (for a summary of this work, see Baker et al., Reference Baker, Blumberg, Brick, Couper, Courtright, Dennis, Dillman, Frankel, Garland, Groves, Kennedy, Krosnick and Lavrakas2010), others detect minimal differences (Haan et al., Reference Haan, Ongena, Vannieuwenhuyze and De Glopper2017). Some argue that the greater trust and rapport between the interviewer and respondent in an in-person interview can actually reduce social desirability bias (Holbrook et al., Reference Holbrook, Green and Krosnick2003).

Part of this inconsistency in the mode effects literature no doubt comes from the wide variation across study designs—in the population studied, outcomes evaluated, data collection implementation, and so on—which makes it difficult to synthesize the empirical patterns. More notably, very few previous studies cleanly isolate mode effects. The survey interview mode is rarely the only design feature that varies across contrasted samples. A survey mode switch is almost always accompanied by a change in the sample frame, making it difficult to distinguish what exactly is driving any observed differences. For example, the ANES online and in-person samples that have been the subject of multiple mode comparisons (e.g., Liu and Wang, Reference Liu and Wang2015) differ not only in interview mode, but also in sample frame, response rates, respondent survey experience, respondent incentives, and so on.Footnote 6 A number of studies have randomized mode prior to recruitment, but such a design does not eliminate the possibility of differential non-response confounding observed mode differences. An extensive review of the literature finds only two previous studies that randomized survey mode after respondents consented to cooperate. Gooch and Vavreck (Reference Gooch and Vavreck2019) compare self-administered online mode to interviewer-administered in-person mode and Chang and Krosnick (Reference Chang and Krosnick2010) compare self-administered online mode with interviewer-administered telephone (via intercom) mode. As such, there remains considerable uncertainty about the nature and extent of video mode effects compared to alternative interviewing modes. In this paper, we report the results of a lab experiment that randomized respondents onsite to either an interviewer-administered video survey wave or an interviewer-administered in-person survey wave after recruitment, consent, and completion of a self-administered online survey wave.

2. Experimental design

We recruited study respondents from a community research pool, which includes residents of the local geographic area, including some students and university employees, who are periodically invited to participate in online and onsite studies.Footnote 7 Respondents were compensated $15 cash after completing both waves of the survey. Data collection began on 11 October 2018 and continued through 13 December 2018, and was approved by Duke University's Institutional Review Board (protocol no. 2019-0071). After consenting to participate, respondents were provided a web link to a self-administered online survey, which they were required to complete in advance of their onsite interview, which had the mode randomized to be either an interviewer-administered video or interviewer-administered in-person survey.Footnote 8 To randomize respondents into the wave 2 survey mode, we used block randomization, by scheduled interviewer and date, since both observed and un-observed interviewer characteristics can influence responses and data quality (Schaeffer et al., Reference Schaeffer, Dykema, Maynard, Marsden and Wright2010).Footnote 9 As shown in Table A1 in the supplemental appendix, attributes across conditions were balanced.Footnote 10

We conducted the in-person and video interviews in the same room in the same office located in an off-campus building. Aside from the location of the interviewer (either on video or in-person), the interviewer-administered protocols were otherwise identical across conditions. The question wording, response options, and question order were identical between the in-person and video interviewer-administered modes and they repeated many of the questions asked in the online survey wave. The questions were primarily drawn from the ANES, including several questions that have been asked for many decades and thus are especially relevant for thinking about implications of mode shifts for comparability over time. Moreover, we have included items that have been scrutinized in previous research comparing ANES self-administered online samples and interviewer-administered in-person samples (e.g., Liu and Wang, Reference Liu and Wang2015, Abrajano and Alvarez, Reference Abrajano and Alvarez2018).

Video and audio from the in-person and video interviews were recorded, unless the subject opted out.Footnote 11 Immediately following the interviewer-administered survey wave, respondents were given a paper questionnaire about their survey experience, which was completed in private. We included this component of the study based on the well-documented relationship between a positive interview experience and data quality (see Frankel and Hillygus, Reference Frankel and Hillygus2014). In total, 157 individuals participated, with 78 randomly assigned to the video condition and 79 to the in-person condition. Figure 1 shows the study sequence.

Figure 1. Study design.

The strength of the lab design is that the experimental randomization offers internal validity to isolate mode effects. We randomly assign interview mode after respondents have been recruited and consented, thereby distinguishing the effect of mode from non-response or sample differences. The two-wave panel design allows for both between- and within-subject comparisons. The between-subject comparison tests for any differences between video and in-person interviewing. The within-subject compares responses to the same questions across survey waves, allowing comparison of the self-administered online mode with the interview-administered modes.

While the experimental design strengthens our ability to isolate mode effects, it has only limited ability to address the potential operational hurdles to implementing video interviews at scale, and some initial video experiences suggest that these hurdles are substantial (e.g., Schober et al., Reference Schober, Conrad, Hupp, Larsen, Ong and West2020; Guggenheim et al., Reference Guggenheim, Maisel, Howell, Amsbary, Brader, DeBell, Good and Hillygus2021; Okon et al., Reference Okon, Schober, Conrad, Hupp, Ong and Larsen2021). Video surveys involve significant scheduling and technological barriers, requiring troubleshooting of connectivity issues with the web-video software, the camera/video feed, and audio level among respondents with varying levels of technological sophistication and using an array of different devices. Depending on the survey population of interest, these logistical issues could compromise the feasibility of video interviewing. The on-the-ground experiences of pandemic-era researchers collecting data via video interviews provide initial insight into some of these operational issues (Guggenheim et al., Reference Guggenheim, Maisel, Howell, Amsbary, Brader, DeBell, Good and Hillygus2021; Hanson, Reference Hanson2021; Larsen et al., Reference Larsen, Hupp, Conrad, Schober, Ong, West and Wang2021), but the field lacks a systematic evaluation of potential mode effects. In our study, we minimize these operational hurdles by having respondents use university-provided technology and equipment and utilizing a research pool of willing participants, with the goal of precisely isolating mode effects.

Our study outcomes are several data quality metrics, including indicators of satisficing behaviors, social desirability, and participant satisfaction—all commonly used in previous mode studies (Heerwegh and Loosveldt, Reference Heerwegh and Loosveldt2008; Chang and Krosnick, Reference Chang and Krosnick2009, Reference Chang and Krosnick2010). The exact question wording and relevant coding decisions are reported in the supplemental appendix. Across these various indicators, we compare means between the interviewer-administered video mode and the interviewer-administered in-person mode.Footnote 12 As a robustness check for this between-subject comparison, we leverage the two-wave design to more precisely detect mode differences (see Clifford et al., Reference Clifford, Sheagley and Piston2021) by estimating a regression controlling for wave 1 responses in the self-administered online condition, the particular interviewer, and respondent demographics (age, gender, education, race/ethnicity). The within-in subject analysis compares means for the self-administered online mode to the in-person mode, the video mode, and the combined (in-person + video) cases.

3. Results: satisficing

We begin by evaluating mode differences in indicators of survey satisficing—the extent to which respondents are thoughtfully engaging in the survey answering process. One measure of respondent engagement is the response length to an open-ended question, where longer answers are taken as an indication of a participants' engagement (Wenz, Reference Wenz2021).Footnote 13 We compare responses to the open-ended question, “What do you think are the most important problems facing this country?” Respondents volunteered an average of 2.5 issues in the online mode, compared to 2.8 in the video mode and 2.9 in the in-person mode.Footnote 14 As shown in Figure 2, the between-subjects difference in the average number of issues (0.15, p = 0.472) is not statistically significant. As reported in the supplemental appendix (Table A3), we find similar results with a robustness check that leverages the two-wave design to more precisely detect differences across the video and in-person interviews (see Clifford et al., Reference Clifford, Sheagley and Piston2021) by estimating a regression controlling for wave 1 responses in the self-administered online condition as well as interviewer and demographics. In sum, the video and in-person modes show similar levels of respondent engagement based on the length of responses to an open-ended question.

Figure 2. Mode differences in mean number of issues mentioned.

Note: Reported are the differences in the mean number of issues mentioned with 95 percent confidence intervals. Sample sizes for each condition are online = 156, video = 78, in-person = 79.

In contrast, the within-subject comparison across survey waves finds wordier responses on average in the interviewer-administered survey wave compared to the self-administered online wave. Overall, the average number of issues mentioned increased by nearly half an issue in the interview-administered surveys compared to the self-administered online survey (p = 0.015 for video mode, p = 0.002 for in-person mode, p < 0.001 for combined). Looking at the data another way, 41 percent of respondents increased the number of issues mentioned (whereas 20 percent mentioned fewer issues) in the interviewer-administered survey wave compared to the self-administered online wave. Thus, respondents give more thorough responses in response to an interviewer in either the video or in-person mode compared to answering the same question in a self-administered online mode.Footnote 15

We next look at item non-response rates as another common metric of respondent engagement (Roberts et al., Reference Roberts, Allum and Eisner2019). We test for item non-response differences using 44 questions that were included in all of the questionnaires.Footnote 16 Respondents were flagged for item non-response if they skipped an item, gave a “don't know” response, or selected “haven't thought much about this” to one of the items that included this response option. Here again, the between-subject comparison finds comparable levels of item non-response between the video and in-person modes (17.9 percent in video; 16.5 percent in in-person; p = 0.806), as seen in Figure 3. As reported in Table A2, item non-response rates between these two interviewer-administered modes remain similar even when we improve the precision of our estimates in a regression controlling for an individual's item non-response rate in the self-administered online survey and other controls. The within-subject comparison, in contrast, finds significant differences between the self-administered online wave and the interviewer-administered wave. More respondents failed to answer one or more questions in the self-administered mode than the interviewer-administered modes (31.2 percent compared to 17.2 percent; p < 0.001). On this measure of satisficing, the interviewer-administered video mode again more closely approximates the interviewer-administered in-person mode than the self-administered online mode.

Figure 3. Mode differences in percentage flagged for item non-response.

Note: Reported are the differences in means across indicated modes with 95 percent confidence intervals. Samples sizes for each condition are online = 156, video = 78, in-person = 79.

Our final measure of satisficing is non-differentiation or “straightlining,” in which respondents give identical responses on multiple, successive items, such as responding, “agree strongly” to back-to-back items in a series (Reuning and Plutzer, Reference Reuning and Plutzer2020). All questionnaires included four question batteries in which selecting the same response for all items could be viewed as incongruous or illogical—an American identity battery (four questions with four response options), an immigrant battery (three questions with five response options), a racial resentment battery (four questions with five response options), and feeling thermometers (six questions with a response scale from 0 to 100).Footnote 17 A between-subjects comparison of straightlining rates finds nearly identical levels of straightlining in the in-person (15.2 percent) and video (15.4 percent) modes, as shown in Figure 4. As with our other measures of satisficing, the straightlining rates between these two interviewer-administered modes remain comparable even when we improve the precision of our estimates in a regression controlling for an individual's item non-response rate in the self-administered online survey and other controls (reported in Table A2). As with our other measures, the within-subjects comparison finds significantly less straightlining in the interviewer-administered wave than the self-administered wave. Overall, 22.9 percent of respondents straightlined on at least one set of questions during the self-administered online wave, compared to 15.3 percent in the interviewer-administered modes, a difference that is statistically significant (p = 0.01).

Figure 4. Mode differences in percentage flagged for straightlining.

Note: Reported are the differences in means across indicated modes with 95 percent confidence intervals. Sample sizes for each condition are online = 156, video = 78, in-person = 79.

To summarize, across multiple measures of satisficing we find that the interviewer-administered video mode shares many of the data quality advantages associated with the interviewer-administered in-person mode compared to the self-administered online mode. We next evaluate the extent to which video interviewing might be impacted by one notable disadvantage of in-person interviewing—social desirability bias.

4. Results: social desirability bias

Our mode comparison focuses on items that have previously been shown to be susceptible to socially desirable responding: attitudes toward immigrants and immigration, racial resentment, and feeling thermometers (Liu and Wang, Reference Liu and Wang2015; Abrajano and Alvarez, Reference Abrajano and Alvarez2018; Carmines and Nassar, Reference Carmines and Nassar2021).Footnote 18

Prior research has documented different estimates using the exact ANES wording that we use in this study between the self-administered online and in-person samples in one or both years that the ANES collected data both online and through in-person interviews. Abrajano and Alvarez (Reference Abrajano and Alvarez2018) have previously documented significant differences in racial resentment between the online and in-person samples on the 2012 and 2016 ANES. They find higher levels of racial resentment on the self-administered online ANES sample compared to the in-person sample. While those analyses are suggestive of mode effects, they cannot rule out other factors such as sampling differences and unit non-response as contributors to the observed differences. We again do a between- and within-subject analysis to scrutinize possible mode differences.

Responses were recoded from zero to one, where zero represents the lowest level of racial resentment and one represents the highest level, and then averaged to create an index ranging from zero to one. As shown in Figure 5, the between-subject comparison finds statistically insignificant differences in the levels of racial resentment between the video and in-person modes. This conclusion is robust to controlling for racial resentment responses in wave 1, demographics, and the assigned interviewer (full results in supplemental appendix Table A4). The within-subject analysis, by contrast, finds lower levels of racial resentment in the interviewer-administered modes compared to the self-administered online mode, the same pattern observed by Abrajano and Alvarez (Reference Abrajano and Alvarez2018). These within-subject differences are substantively small and statistically significant only when combining the video and in-person samples (−0.020, p = 0.029), although each of the interviewer-administered modes are in the expected direction. Looking at the data in another way, 39 percent of respondents gave a more socially desirable response in the interviewer administered wave compared to 22 percent moving in the other direction (and 39 percent remaining stable).

Figure 5. Mode differences in social desirability effects.

Note: Reported is the difference in means with 95 percent confidence intervals. Questions are recoded to range from 0 to 1, with larger values indicating more hostility toward the group. Samples sizes for each condition are online = 156, video = 78, in-person = 79.

We next look at responses to a three-item battery about immigrants in the United States, which instructed respondents to indicate their level of agreement or disagreement with three statements about immigrants. We recoded the responses from 0 to 1, where 0 represents the pro-immigrant response and 1 represents the anti-immigrant response. On immigration attitudes, the between-subject comparison finds similar immigration attitudes in the video and in-person modes; differences remain statistically insignificant when controlling for wave 1 responses, demographics, and the assigned interviewer (full results in supplemental appendix Table A4). In the within-subject comparison, we find that respondents report more negative immigration attitudes in the self-administered online mode than in either of the interviewer-administered modes, differences that are statistically significant for both the video and in-person modes, although they are again substantively small. Across both interviewer-administered modes, 36 percent of respondents changed their attitudes on immigration in the socially desirable direction between the self-administered online wave and the interviewer-administered wave, compared to 15 percent moving in the opposite direction (and 49 percent remaining stable).

A final social desirability check is a comparison of feeling thermometers toward various groups. Previous comparisons of the ANES online and in-person samples have found more favorable evaluations in the interviewer-administered in-person mode compared to the online mode, but again these samples differ in ways other than mode alone (Liu and Wang, Reference Liu and Wang2015). Our experiment asked participants to rate the Democratic Party, the Republican Party, Evangelicals, Muslims, Blacks, and “gay men and lesbians” using the feeling thermometer ranging from 0 (unfavorable) to 100 (favorable) degrees.Footnote 19 These six groups were presented in the same order on both the self-administered and interviewer-administered modes.

As with the other measures, the between-subject comparison between the video and in-person modes finds no statistically significant differences in thermometer ratings for any of the evaluated groups, as seen in Figure 6. By contrast, the within-subject analysis finds that feeling thermometer ratings were higher (warmer) during the interviewer-administered modes than they were in self-administered online mode.Footnote 20 The differences are not always statistically significant—the average individual change in thermometer rating is significantly warmer for four of the six groups in the video condition, and all but one group in the combined interviewer-administered conditions.

Figure 6. Mode differences in feeling thermometer scores.

Note: Reported is the difference in means with 95 percent confidence intervals.

In sum, our results suggest that interviewer-administered video interviews can suffer from higher levels of social desirability bias than self-administered online surveys. The differences between the interviewer-administered modes and the self-administered modes are not always substantively large or statistically significant, but they are in a consistent direction across all measures evaluated.Footnote 21 While this is a potential downside of video interviewing that deserves further research, at the same time, these results yet again point to the comparability of video and in-person interviewing, so should be reassuring to those looking to transition an in-person time series project.

5. Results: participant satisfaction

Finally, in evaluating the comparability of video and in-person interviewing, we consider the survey experience across the modes. Survey methodology researchers consistently find that survey experience affects the quality of the responses given (e.g., Groves and Couper, Reference Groves and Couper2012). Equivalent experiences and satisfaction are important for both the quality of the data collected and participants' willingness to participate in future surveys. This might be especially important for panel designs, such as the ANES, in which cooperation with future re-interviews is needed. Participants in our study completed a paper questionnaire at the end of the study and each of our interviewers also answered a handful questions about their experience with the respondent as well.

The first question inquired about participant satisfaction with the interview experience. Overall, participants were quite satisfied with the interview experience and exhibited similar mean ratings of 2.6 for the video mode and 2.5 for the in-person mode on a 0–3-point scale, where 0 represents “not at all satisfied” and 3 represents “very satisfied.” A slightly higher percentage of respondents in the video mode (15.4 percent) reported they found themselves distracted during the video interview than during the in-person mode (11.4 percent); but the difference is not statistically significant (p = 0.466).

A Likert-type grid with six statements and six response options ranging from “strongly disagree” to “strongly agree” asked about length of the survey, interest in the subject matter, if particular questions were too personal, if the survey covered topics that matter to the participant, and if they answered the survey questions honestly. We display the mean responses to each of these items by survey mode in Figure 7. The only notable difference between conditions is on self-reported honesty, with respondents in the video condition expressing stronger agreement with the statement, “I answered the questions on this survey honestly.” The mean score for the video condition is 5.8 and the mean for the in-person condition is 5.5; the difference in means is statistically significant (p = 0.004).

Figure 7. Mean evaluation of interview experience.

Note: Responses are from a paper questionnaire completed by participants following their interviewer-administered interview. Sample size for each condition is video = 78, in-person = 79.Footnote 22

The interviewers also answered a few questions immediately after each interview. They rated how distracted, informed, and honest each participant seemed to them on four-point scales coded from “not at all” (1) to “very” (4). We find no meaningful differences between the interviewers' scores of respondents in the video and in-person interviews. The modal response was “not at all” distracted with equivalent means (1.2) in each condition. The interviewers also assessed similar levels of political knowledge among the participants in each mode (2.9 in each condition). Finally, the interviewers perceived participants in both the video and in-person conditions as providing honest responses (3.9 in video, and 3.8 in-person; p = 0.648).

6. Discussion

Large-scale in-person survey research has long been considered the “gold standard,” but has been facing dramatically increasing costs in recent years. Declining response rates necessitate more extensive fieldwork, increased respondent contacts, enhanced interviewer training, and higher incentive payments. These developments erode the cost effectiveness of in-person surveys. The COVID-19 pandemic represents a further threat to in-person interviewing. The mandated reductions in interpersonal contact and widespread fears of contamination have further challenged in-person interviews. As it becomes imperative for survey researchers to consider alternative approaches, it remains critical to evaluate data comparability and quality.

The results of our randomized mode experiment find promising similarities between video interviews and in-person interviews. Across multiple data quality metrics—non-differentiation, item non-response, and the depth of responses to open-ended questions—both interviewer-administered modes elicited higher quality data than self-administered online surveys from the same respondents and we observed minimal differences between video and in-person interviews, though confidence intervals for differences between video and in-person results were typically large. The consistency of these findings across multiple metrics affords greater confidence in the substantive conclusion that video resembles in-person interviewing more than it resembles self-administered online questionnaires. At the same time, video interviews do appear to share similar social desirability biases resulting from the presence of an interviewer, although the observed differences are sometimes substantively small or statistically insignificant.

Many of the differences we observed between in-person interviews and self-administered, online surveys are consistent with findings from earlier mode studies (e.g., see Hillygus et al., Reference Hillygus, Valentino, Vavreck, Barreto and Layman2017). These prior observational studies, however, were not able to isolate the effect of mode in the presence of sampling and non-response differences. Neither sampling differences nor non-response are plausible alternative explanations in this study since randomization occurred after recruitment to the study and no participants withdrew after assignment to the video or in-person mode.

While our results suggest that video interviews offer promise as an alternative to in-person surveys, we emphasize that our study represents only one piece of the necessary research to evaluate the potential of this mode. To maximize internal validity, we conducted this study in a controlled environment, with respondents in both the video condition and the in-person condition participating at a central, on-site location, which ensures that any possible differences between these modes reflects random assignment. Implementing video interviews at scale requires consideration of a large number of operational and logistical issues that could impact viability for some populations and projects (Schober et al., Reference Schober, Conrad, Hupp, Larsen, Ong and West2020). For example, video interviews will likely encounter connectivity and other technological hiccups when the onus of establishing communication between the interviewer and interviewee shifts from the research team (as was the case in this study) to each respective party. Experience and comfort with web-video technologies is not uniform (Schober, Reference Schober2018), which could impact which populations might be best suited to video interviewing. Additionally, video interviews must contend with distractions, scheduling issues, and coordination mishaps. These and other logistical demands require more extensive testing and research to identify best practices and to determine when and how video interviewing might be integrated into survey research.

It is also the case that any transition to a new mode also requires quantification of the quality and costs of the mode relative to alternatives (Ansolabehere and Schaffner, Reference Ansolabehere, Schaffner, Atkeson and Alvarez2018). Our study is not able to directly speak to cost differentials, unfortunately. The cost savings of video interviewing should come from the reduction of interviewer travel, housing, and salary while in the field (as well as the potential to reduce design effects by elimination of clusters typically used in in-person samples), but our study had fixed costs since the respondents traveled to the interview site. There are, of course, many other cost elements that remain unchanged: cost of sampling, programming, project management, staffing a help desk. Cost implications also require consideration of potential differences in response propensities—the experience of the 2020 ANES was that video interview requests yield lower response rates than in-person interviews (Guggenheim et al., Reference Guggenheim, Maisel, Howell, Amsbary, Brader, DeBell, Good and Hillygus2021). Given this, video interviewing could require larger respondent incentives to promote cooperation or more contact attempts. All of these are additional considerations that must be evaluated with future studies. Based on the experiences in the field thus far, it may be the case that the quality-cost trade-offs will be optimized in using video interviews in a mixed mode study that allows reduce costs for respondents with the ability and motivation to complete video interviewing. Given a population with access to high-speed Internet, video interviews could be used to collect as much data as possible, reducing the number of more expensive household visits that need to be made.

While there is a clear need for additional research, our analysis points to the potential of video interviews as an interviewer-administered mode with comparability to in-person interviewing on multiple data quality metrics, measures of social desirability, and participant satisfaction. The shared pros and cons between video and in-person interviews, along with the stark differences between self-administered, online surveys and both interviewer-administered modes, are important considerations for researchers evaluating a possible mode switch in a long-running time series.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/psrm.2022.30

Acknowledgments

We thank our team of interviewers—Hannah Bartlebaugh, Martin DeWitt, and Apu Chakraborty—and the Social Science Research Institute at Duke University and the Odom Institute at UNC Chapel Hill for support during the data collection process. We are grateful for the feedback provided by the editor, anonymous reviewers, and participants at the 2019 American Association for Public Opinion Research conference.

Footnotes

1 We do not include in our definition self-administered surveys using pre-recorded interviewers, although others have referred to such designs as “video interviews” (e.g., Haan et al., Reference Haan, Ongena, Vannieuwenhuyze and De Glopper2017).

2 A handful of previous studies have examined various aspects of video interviews. For example, Sun (Reference Sun2014) and Sun et al. (Reference Sun, Conrad and Kreuter2020) compare interviewer rapport and information disclosure for in-person versus video interviews.

3 To our knowledge, the only studies to have randomized survey mode post-acceptance are Gooch and Vavreck (Reference Gooch and Vavreck2019), who compare self-administered online mode and interviewer-administered in-person mode, and Chang and Krosnick (Reference Chang and Krosnick2010), who compare self-administered online mode and interviewer-administered telephone (via intercom) mode. A number of studies have randomized mode prior to recruitment, but doing so cannot eliminate the possibility of differential response rates confounding observed mode differences.

5 We are aware of one experiment that documents similar levels of rapport between interviewers and respondents in live-video and in-person interviewing (Sun, Reference Sun2014; Sun et al., Reference Sun, Conrad and Kreuter2020).

6 The online sample was drawn from the probability-based Knowledge Network's KnowledgePanel and had a response rate of 2 percent; the in-person sample was drawn using an address-based, stratified, multi-stage cluster sample in 125 census tracts and had a response rate of 38 percent. For more information see ANES (2014). User's Guide and Codebook to the ANES 2012 Time Series Study. Ann Arbor, MI and Palo Alto, CA: University of Michigan and Stanford University.

7 According to an email with the lab manager, participants in the community pool are limited to 15 studies per year, the vast majority of which are self-administered on a computer. While the participants aren't professional respondents to the same degree as panelists in an opt-in online panel, we would expect this population to be more receptive to video interviewing than a general population, especially because the lab environment ensured access to and assistance with the necessary technology.

8 The mean time between the completion of the online survey and the onsite interview was 92 hours, the median was 26 hours, the maximum was 858 hours, and the minimum was less than an hour. Results segmented by median time duration are shown in supplemental appendix Table A6.

9 Four interviewers (three males, one female) conducted all interviewers. Interviews sessions were offered from 10 AM to 7 PM Monday through Saturday. Interviewers were not blinded to the study goals—indeed, they were trained to avoid verbal nudges so that any observed differences should be due to the presence or absence of the interviewer.

10 Nineteen individuals completed the self-administered survey but did not complete the second wave interview.

11 Two respondents declined being recorded, one in the video condition and one in the in-person condition. Results do not change if they are excluded. All respondents were recorded using a webcam that was positioned directly behind the interviewer or behind the video monitor. We also positioned a flat microphone between the interviewer and interviewee for the in-person condition and between the video monitor and interviewee for the video condition.

12 For comparability across all figures, we consistently report estimates from a t-test for the difference in means, with two-tailed p-values. Substantive conclusions are unchanged with a difference in proportions test for relevant outcomes.

13 Survey duration is a common metric of speeding or satisficing in the data quality literature (Malhotra, Reference Malhotra2008), but we don't report here because self-administered and interviewer-administered surveys are not directly comparable—it is faster to read questions than to speak them. Comparing the two interviewer-administered surveys does find that they had approximately equivalent durations, with video an average of 20.2 minutes and in-person an average of 19.2 minutes.

14 Looking at it in another way, 66 percent of respondents in the online mode volunteered more than one issue, compared to 86 percent in the video mode and 91 percent in the in-person mode.

15 Because the self-administered online survey was always completed first, we cannot rule out the possibility that the observed increase reflects panel conditioning; that is, being asked the question in wave 1 could impact responses in the subsequent wave. For example, one might be concerned that being asked the question previously would have increased political thinking. On the other hand, most previous research tends to find minimal panel conditioning effects, except on items such as political knowledge and engagement (for review, see Hillygus and Snell, Reference Hillygus, Snell, Atkeson and Alvarez2018). Offering some reassurance in this study is the observed consistency in patterns across all satisficing measures, including those—like straightlining—for which there is not a clear mechanism by which panel conditioning might matter. Likewise, we do not find any clear pattern when comparing results based on time duration between survey waves (see supplemental appendix Table A6). To be sure, future research would benefit from either randomizing mode order or adding a second self-administered online wave.

16 We exclude any items that were not asked of the entire sample. To be conservative, we also excluded feeling thermometers from this summary measure because respondents were explicitly instructed to skip an item if they did not recognize the listed person or group (the same instructions provided in the ANES), which could be viewed as encouraging item nonresponse. The pattern is consistent with the broader summary measure: 13 percent skipped at least one feeling thermometer in the self-administered online mode, compared to 10 percent in the interviewer-administered video mode and 9 percent in the interviewer-administered in-person mode.

17 See the supplemental appendix for question wording. Only the American identity battery was formatted as a grid in the online questionnaire. On that set of items, 18.5 percent of the participants straightlined in the self-administered survey compared to 12.1 percent during the interviewer-administered survey (p = 0.007); differences between the video mode (10.3 percent) and the in-person mode (13.9 percent) were not statistically different from one another. Thus, the within subject comparison finds a decline in straightlining of 6.4 percentage points (p = 0.058) for those in the video condition and a 6.3 percentage point (p = 0.058) decline for those in the in-person condition.

18 The response options for the racial resentment and immigration questions were listed in the respondent booklet during the video and in-person interviews. Respondent booklets or question cards have long been used for in-person interviews for visually complex, long, or sensitive questions (to help reduce socially desirable responding), and were used for those same items that rely on a booklet in the ANES. Respondents were handed the paper booklet by the check-in person who walked them to the interview room.

19 All of these groups were found to have warmer feeling thermometer ratings in the in-person compared to 2012 ANES (Liu and Wang, Reference Liu and Wang2015). As with most other social desirability studies, we do not have a way to validate attitudinal measures so we must assume that that lower reports of socially desirable behaviors reflect more accurate answers.

20 We see a similar pattern when we look at the percentage who moved in a socially desirable (warmer) direction between survey waves, compared to moving in a cooler direction: 42 percent became warmer toward Democrats (24 percent cooler); 47 percent warmer toward Republicans (23 percent cooler), 50 percent warmer toward evangelicals (21 percent cooler), 39 percent warmer toward Muslims (22 percent cooler), 31 percent warmer toward African-Americans (23 percent cooler), and 35 percent warmer toward gays and lesbians (24 percent cooler).

21 We find a similar pattern on non-attitudinal items that have been previously shown to be susceptible to socially desirable responding. Compared to their self-administered online response, 28 percent of respondents report a higher income in their interviewer-administered survey wave, while just 13 percent reported a lower income (59 percent reported the same income). Likewise, when asked news consumption in a typical week, 21 percent reported a larger number of days in their interviewer-administered survey wave compared to their self-administered online response, whereas only 11 percent reported a smaller number of days.

22 Participants were asked, “Do you agree or disagree with each of the following?” Response options ranged from strongly disagree (1) to strongly agree (6). Statements include: This survey was too long. This survey was interesting. The questions in this survey were too personal. This survey was boring. This survey asked about topics that matter to me. I answered the questions on this survey honestly.

References

Abrajano, M and Alvarez, RM (2018) Answering questions about race: How racial and ethnic identities influence survey response. American Politics Research 47, 250274.CrossRefGoogle Scholar
Anderson, AH (2008) Video-mediated interactions and surveys. In Conrad, FG and Schober, MF (eds), Envisioning the Survey Interview of the Future. Hoboken, NJ: Wiley, pp. 95118.Google Scholar
Ansolabehere, S and Schaffner, B (2018) Taking the study of political behavior online. In Atkeson, LR and Alvarez, RM (eds). The Oxford Handbook of Polling and Survey Methods. New York, NY: Oxford University Press, pp. 7696.Google Scholar
Atkeson, LR and Adams, AN (2018) Mixing survey modes and its implications. In Atkeson, LR and Alvarez, RM (eds). The Oxford Handbook of Polling and Survey Methods. New York, NY: Oxford University Press, pp. 5375.Google Scholar
Atkeson, LR, Adams, AN and Alvarez, RM (2014) Nonresponse and mode effects in self-and interviewer-administered surveys. Political Analysis 22, 304320.CrossRefGoogle Scholar
Baker, R, Blumberg, S, Brick, JM, Couper, MP, Courtright, M, Dennis, M, Dillman, D, Frankel, MR, Garland, P, Groves, R, Kennedy, C, Krosnick, J and Lavrakas, PJ (2010) AAPOR report on online panels. The American Association for Public Opinion Research.Google Scholar
Ballejos, MP, Oglesbee, S, Hettema, J and Sapien, R (2018) An equivalence study of interview platform: Does videoconference technology impact medical school acceptance rates of different groups?. Advances in Health Sciences Education 23, 601610.CrossRefGoogle ScholarPubMed
Carmines, E and Nassar, R (2021) How social desirability bias affects immigration attitudes in a hyperpolarized political environment. Social Science Quarterly 102, 18031811.Google Scholar
Chang, L and Krosnick, JA (2009) National surveys via RDD telephone interviewing versus the Internet: comparing sample representativeness and response quality. Public Opinion Quarterly 73, 641678.CrossRefGoogle Scholar
Chang, L and Krosnick, JA (2010) Comparing oral interviewing with self-administered computerized questionnaires. Public Opinion Quarterly 74, 154167.Google Scholar
Clifford, S, Sheagley, G and Piston, S (2021) Increasing precision without altering treatment effects: Repeated measures designs in survey experiments. American Political Science Review 115, 10481065.CrossRefGoogle Scholar
Conrad, FG, Schober, MF, Hupp, AL, West, BT, Larsen, K, Ong, AR, Wang, T and Interviewers, Video, and Survey Data Collection (2020) Annual Meeting of the American Association for Public Opinion Research.Google Scholar
Couper, MP (2011) The future of modes of data collection. Public Opinion Quarterly 75, 889908.CrossRefGoogle Scholar
Davis, DW (1997) Nonrandom measurement error and race of interviewer effects among African Americans. The Public Opinion Quarterly 61, 183207.Google Scholar
Forrestal, SG, D'Angelo, AV and Vogel, LK (2015) Considerations for and lessons learned from online, synchronous focus groups. Survey Practice 8, 18.CrossRefGoogle Scholar
Frankel, LL and Hillygus, DS (2014) Looking beyond demographics: Panel attrition in the ANES and GSS. Political Analysis 22, 336353.Google Scholar
Gooch, A and Vavreck, L (2019) How face-to-face interviews and cognitive skill affect item non-response: A randomized experiment assigning mode of interview. Political Science Research and Methods 7, 143162.CrossRefGoogle Scholar
Groves, RM and Couper, MP (2012) Nonresponse in Household Interview Surveys. Hoboken, NJ: John Wiley & Sons.Google Scholar
Guay, B, Hillygus, DS and Valentino, N (2019) Opportunities and challenges of conducting large-scale political surveys online. Unpublished manuscript. Duke University.Google Scholar
Guggenheim, L, Maisel, N, Howell, D, Amsbary, M, Brader, T, DeBell, M, Good, C and Hillygus, S (2021) Live video interviewing in the ANES 2020 time series study. Presented at the 2021 Virtual Meeting of the American Association of Public Opinion Research, May 11, 2021.Google Scholar
Haan, M, Ongena, YP, Vannieuwenhuyze, JT and De Glopper, K (2017) Response behavior in a video-web survey: A mode comparison study. Journal of Survey Statistics and Methodology 5, 4869.Google Scholar
Hanson, T (2021) The European Social Survey during COVID-19: Using video interviews and other innovations. Presented at the 2021 Virtual Meeting of the American Association of Public Opinion Research, May 11, 2021.Google Scholar
Heerwegh, D and Loosveldt, G (2008) Face-to-face versus web surveying in a high-Internet coverage population: Differences in response quality. Public Opinion Quarterly 72, 836.Google Scholar
Hillygus, DS and Snell, SA (2018) Longitudinal surveys: Issues and opportunities. In Atkeson, LR and Alvarez, RM (eds). The Oxford Handbook on Polling and Survey Methods. New York, NY: Oxford University Press, pp. 2852.Google Scholar
Hillygus, DS, Valentino, N, Vavreck, L, Barreto, M and Layman, G (2017) Assessing the implications of a mode change. Unpublished ANES report.Google Scholar
Holbrook, A, Green, M and Krosnick, JA (2003) Telephone versus face-to-face interviewing of national probability samples with long questionnaires—Comparison of respondent satisficing and social desirability response bias. Public Opinion Quarterly 67, 79125.Google Scholar
Homola, J, Jackson, N and Gill, J (2016) A measure of survey mode differences. Electoral Studies 44, 255274.CrossRefGoogle Scholar
Janghorban, R, Roudsari, RL and Taghipour, A (2014) Skype interviewing: The new generation of online synchronous interview in qualitative research. International Journal of Qualitative Studies on Health and Well-Being 9, 24152.Google ScholarPubMed
Jeannis, M, Terry, T, Heman-Ackah, R and Price, M (2013) Video interviewing: An exploration of the feasibility as a mode of survey application. Survey Practice 6, 15.CrossRefGoogle Scholar
Klausch, T, Hox, JJ and Schouten, B (2013) Measurement effects of survey mode on the equivalence of attitudinal rating scale questions. Sociological Methods and Research 42, 227263.CrossRefGoogle Scholar
Krosnick, JA (1991) Response strategies for coping with the cognitive demands of attitude measures in surveys. Applied Cognitive Psychology 5, 213236.Google Scholar
Larsen, K, Hupp, A, Conrad, F, Schober, M, Ong, A, West, B and Wang, T (2021) Recruitment & participation in video interviews. Presented at the 2021 Virtual Meeting of the American Association of Public Opinion Research, May 11, 2021.Google Scholar
Lesser, V, Newton, L and Yang, D (2012) Comparing item nonresponse across different delivery modes in general population surveys. Survey Practice 5, 15.CrossRefGoogle Scholar
Liu, M (2018) Data collection mode. Effect on abortion questions: a comparison of face-to-face and web surveys. Gender and Women's Studies 1, 110.Google Scholar
Liu, M and Wang, Y (2015) Data collection mode effect on feeling thermometer questions: a comparison of face-to-face and Web surveys. Computers in Human Behavior 48, 212218.CrossRefGoogle Scholar
Liu, M and Wang, Y (2016) Comparison of face-to-face and web surveys on the topic of homosexual rights. Journal of homosexuality 63, 838854.CrossRefGoogle ScholarPubMed
Malhotra, N (2008) Completion time and response order effects in web surveys. Public Opinion Quarterly 72, 914934.CrossRefGoogle Scholar
Okon, S, Schober, M, Conrad, F, Hupp, A, Ong, AR and Larsen, K (2021) Predictors of willingness to participate in live video survey interviews: A pilot study. Presented at the 2021 Virtual Meeting of the American Association of Public Opinion Research, May 11, 2021.Google Scholar
Pasadhika, S, Altenbernd, T, Ober, RR, Harvey, EM and Miller, JM (2012) Residency interview video conferencing. Ophthalmology 119, 426426.CrossRefGoogle ScholarPubMed
Reuning, K and Plutzer, E (2020) Valid vs. invalid straightlining: The complex relationship between straightlining and data quality. Survey Research Methods 14, 439459.Google Scholar
Revilla, MA and Saris, WE (2013) A comparison of the quality of questions in a face-to-face and a web survey. International Journal of Public Opinion Research 25, 242253.CrossRefGoogle Scholar
Roberts, CEG, Allum, N and Eisner, L (2019) Research synthesis: Satisficing in surveys: A systematic review of the literature. Public Opinion Quarterly 83, 598626.CrossRefGoogle Scholar
Schaeffer, NC, Dykema, J and Maynard, DW (2010) Interviewers and interviewing. In Marsden, PV and Wright, JD (eds). Handbook of Survey Research, 2nd edn. Bingley, UK: Emerald Group Publishing, pp. 437471.Google Scholar
Schober, MF (2018) The future of face-to-face interviewing. Quality Assurance in Education 26, 290302.CrossRefGoogle Scholar
Schober, MF, Conrad, FG, Hupp, AL, Larsen, KM, Ong, AR and West, BT (2020) Design considerations for live video survey interviews. Survey Practice 13, 111.Google Scholar
Sullivan, JR (2012) Skype: An appropriate method of data collection for qualitative interviews? The Hilltop Review 6, 10.Google Scholar
Sun, H (2014) Rapport and Its Impact on the Disclosure of Sensitive Information in Standardized Interviews (Doctoral dissertation). University of Maryland, College Park. UMI No. 3682810.Google Scholar
Sun, H, Conrad, FG and Kreuter, F (2020) The relationship between interviewer-respondent rapport and data quality. Journal of Survey Statistics and Methodology 9, 429448.Google Scholar
Valentino, NA, Zhirkov, K, Hillygus, DS and Guay, B (2020) The consequences of personality biases in online panels for measuring public opinion. Public Opinion Quarterly 84, 446468.Google Scholar
Vavreck, L (2014) The consequences of face-to-face interviews for respondents with low cognitive skills: A randomized experiment assigning in-person and self-complete survey modes. Unpublished manuscript, University of California, Los Angeles.Google Scholar
Villar, A and Fitzgerald, R (2017) Using mixed modes in survey data research: Results from six experiments. In Breen, M (ed). Values and Identities in Europe. Evidence From the European Social Survey. London: Routledge, pp. 259292.Google Scholar
Wenz, A (2021) Do distractions during web survey completion affect data quality? Findings from a laboratory experiment. Social Science Computer Review 39, 148161.CrossRefGoogle Scholar
West, BT, Ong, AR, Conrad, FG, Schober, MF, Larsen, KM and Hupp, AL (2021) Interviewer effects in live video and prerecorded video interviewing. Journal of Survey Statistics and Methodology 10, 317336.CrossRefGoogle Scholar
Yeager, DS, Krosnick, JA, Chang, L, Javitz, HS, Levendusky, MS, Simpser, A and Wang, R (2011) Comparing the accuracy of RDD telephone surveys and internet surveys conducted with probability and non-probability samples. Public Opinion Quarterly 75, 709747.Google Scholar
Figure 0

Figure 1. Study design.

Figure 1

Figure 2. Mode differences in mean number of issues mentioned.Note: Reported are the differences in the mean number of issues mentioned with 95 percent confidence intervals. Sample sizes for each condition are online = 156, video = 78, in-person = 79.

Figure 2

Figure 3. Mode differences in percentage flagged for item non-response.Note: Reported are the differences in means across indicated modes with 95 percent confidence intervals. Samples sizes for each condition are online = 156, video = 78, in-person = 79.

Figure 3

Figure 4. Mode differences in percentage flagged for straightlining.Note: Reported are the differences in means across indicated modes with 95 percent confidence intervals. Sample sizes for each condition are online = 156, video = 78, in-person = 79.

Figure 4

Figure 5. Mode differences in social desirability effects.Note: Reported is the difference in means with 95 percent confidence intervals. Questions are recoded to range from 0 to 1, with larger values indicating more hostility toward the group. Samples sizes for each condition are online = 156, video = 78, in-person = 79.

Figure 5

Figure 6. Mode differences in feeling thermometer scores.Note: Reported is the difference in means with 95 percent confidence intervals.

Figure 6

Figure 7. Mean evaluation of interview experience.Note: Responses are from a paper questionnaire completed by participants following their interviewer-administered interview. Sample size for each condition is video = 78, in-person = 79.22

Supplementary material: Link

Endres et al. Dataset

Link
Supplementary material: PDF

Endres et al. supplementary material

Appendix

Download Endres et al. supplementary material(PDF)
PDF 290 KB