Speed–Accuracy Trade-Off? Not So Fast: Marginal Changes in Speed Have Inconsistent Relationships With Accuracy in Real-World Settings

Benjamin W. Domingue; Klint Kanopka; Ben Stenhaug; Michael J. Sulik; Tanesia Beverly; Matthieu Brinkhuis; Ruhan Circi; Jessica Faul; Dandan Liao; Bruce Mccandliss; Jelena Obradović; Chris Piech; Tenelle Porter; Project Ilead Consortium; James Soland; Jon Weeks; Steven L. Wise; Jason Yeatman

doi:10.3102/10769986221099906

Speed–Accuracy Trade-Off? Not So Fast: Marginal Changes in Speed Have Inconsistent Relationships With Accuracy in Real-World Settings

Benjamin W. Domingue, Klint Kanopka, Ben Stenhaug, Michael J. Sulik, Tanesia Beverly, Matthieu Brinkhuis, Ruhan Circi, Jessica Faul, Dandan Liao, Bruce Mccandliss, Jelena Obradović, Chris Piech, Tenelle Porter, Project Ilead Consortium, James Soland, Jon Weeks, Steven L. Wise, Jason Yeatman

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

The speed–accuracy trade-off (SAT) suggests that time constraints reduce response accuracy. Its relevance in observational settings—where response time (RT) may not be constrained but respondent speed may still vary—is unclear. Using 29 data sets containing data from cognitive tasks, we use a flexible method for identification of the SAT (which we test in extensive simulation studies) to probe whether the SAT holds. We find inconsistent relationships between time and accuracy; marginal increases in time use for an individual do not necessarily predict increases in accuracy. Additionally, the speed–accuracy relationship may depend on the underlying difficulty of the interaction. We also consider the analysis of items and individuals; of particular interest is the observation that respondents who exhibit more within-person variation in response speed are typically of lower ability. We further find that RT is typically a weak predictor of response accuracy. Our findings document a range of empirical phenomena that should inform future modeling of RTs collected in observational settings.

Original language	English
Pages (from-to)	576-602
Journal	Journal of Educational and Behavioral Statistics
Volume	47
Issue number	5
DOIs	https://doi.org/10.3102/10769986221099906
Publication status	Published - 8 Jun 2022

Keywords

response time
IRT
speed–accuracy trade-off
conditional accuracy function

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Domingue, B. W., Kanopka, K., Stenhaug, B., Sulik, M. J., Beverly, T., Brinkhuis, M., Circi, R., Faul, J., Liao, D., Mccandliss, B., Obradović, J., Piech, C., Porter, T., Consortium, P. I., Soland, J., Weeks, J., Wise, S. L., & Yeatman, J. (2022). Speed–Accuracy Trade-Off? Not So Fast: Marginal Changes in Speed Have Inconsistent Relationships With Accuracy in Real-World Settings. Journal of Educational and Behavioral Statistics, 47(5), 576-602. https://doi.org/10.3102/10769986221099906

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title = "Speed–Accuracy Trade-Off? Not So Fast: Marginal Changes in Speed Have Inconsistent Relationships With Accuracy in Real-World Settings",

abstract = "The speed–accuracy trade-off (SAT) suggests that time constraints reduce response accuracy. Its relevance in observational settings—where response time (RT) may not be constrained but respondent speed may still vary—is unclear. Using 29 data sets containing data from cognitive tasks, we use a flexible method for identification of the SAT (which we test in extensive simulation studies) to probe whether the SAT holds. We find inconsistent relationships between time and accuracy; marginal increases in time use for an individual do not necessarily predict increases in accuracy. Additionally, the speed–accuracy relationship may depend on the underlying difficulty of the interaction. We also consider the analysis of items and individuals; of particular interest is the observation that respondents who exhibit more within-person variation in response speed are typically of lower ability. We further find that RT is typically a weak predictor of response accuracy. Our findings document a range of empirical phenomena that should inform future modeling of RTs collected in observational settings.",

keywords = "response time, IRT, speed–accuracy trade-off, conditional accuracy function",

author = "Domingue, {Benjamin W.} and Klint Kanopka and Ben Stenhaug and Sulik, {Michael J.} and Tanesia Beverly and Matthieu Brinkhuis and Ruhan Circi and Jessica Faul and Dandan Liao and Bruce Mccandliss and Jelena Obradovi{\'c} and Chris Piech and Tenelle Porter and Consortium, {Project Ilead} and James Soland and Jon Weeks and Wise, {Steven L.} and Jason Yeatman",

year = "2022",

month = jun,

day = "8",

doi = "10.3102/10769986221099906",

language = "English",

volume = "47",

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journal = "Journal of Educational and Behavioral Statistics",

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Domingue, BW, Kanopka, K, Stenhaug, B, Sulik, MJ, Beverly, T, Brinkhuis, M, Circi, R, Faul, J, Liao, D, Mccandliss, B, Obradović, J, Piech, C, Porter, T, Consortium, PI, Soland, J, Weeks, J, Wise, SL & Yeatman, J 2022, 'Speed–Accuracy Trade-Off? Not So Fast: Marginal Changes in Speed Have Inconsistent Relationships With Accuracy in Real-World Settings', Journal of Educational and Behavioral Statistics, vol. 47, no. 5, pp. 576-602. https://doi.org/10.3102/10769986221099906

Speed–Accuracy Trade-Off? Not So Fast: Marginal Changes in Speed Have Inconsistent Relationships With Accuracy in Real-World Settings. / Domingue, Benjamin W.; Kanopka, Klint; Stenhaug, Ben et al.
In: Journal of Educational and Behavioral Statistics, Vol. 47, No. 5, 08.06.2022, p. 576-602.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - Speed–Accuracy Trade-Off? Not So Fast: Marginal Changes in Speed Have Inconsistent Relationships With Accuracy in Real-World Settings

AU - Domingue, Benjamin W.

AU - Kanopka, Klint

AU - Stenhaug, Ben

AU - Sulik, Michael J.

AU - Beverly, Tanesia

AU - Brinkhuis, Matthieu

AU - Circi, Ruhan

AU - Faul, Jessica

AU - Liao, Dandan

AU - Mccandliss, Bruce

AU - Obradović, Jelena

AU - Piech, Chris

AU - Porter, Tenelle

AU - Consortium, Project Ilead

AU - Soland, James

AU - Weeks, Jon

AU - Wise, Steven L.

AU - Yeatman, Jason

PY - 2022/6/8

Y1 - 2022/6/8

N2 - The speed–accuracy trade-off (SAT) suggests that time constraints reduce response accuracy. Its relevance in observational settings—where response time (RT) may not be constrained but respondent speed may still vary—is unclear. Using 29 data sets containing data from cognitive tasks, we use a flexible method for identification of the SAT (which we test in extensive simulation studies) to probe whether the SAT holds. We find inconsistent relationships between time and accuracy; marginal increases in time use for an individual do not necessarily predict increases in accuracy. Additionally, the speed–accuracy relationship may depend on the underlying difficulty of the interaction. We also consider the analysis of items and individuals; of particular interest is the observation that respondents who exhibit more within-person variation in response speed are typically of lower ability. We further find that RT is typically a weak predictor of response accuracy. Our findings document a range of empirical phenomena that should inform future modeling of RTs collected in observational settings.

AB - The speed–accuracy trade-off (SAT) suggests that time constraints reduce response accuracy. Its relevance in observational settings—where response time (RT) may not be constrained but respondent speed may still vary—is unclear. Using 29 data sets containing data from cognitive tasks, we use a flexible method for identification of the SAT (which we test in extensive simulation studies) to probe whether the SAT holds. We find inconsistent relationships between time and accuracy; marginal increases in time use for an individual do not necessarily predict increases in accuracy. Additionally, the speed–accuracy relationship may depend on the underlying difficulty of the interaction. We also consider the analysis of items and individuals; of particular interest is the observation that respondents who exhibit more within-person variation in response speed are typically of lower ability. We further find that RT is typically a weak predictor of response accuracy. Our findings document a range of empirical phenomena that should inform future modeling of RTs collected in observational settings.

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KW - IRT

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KW - conditional accuracy function

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DO - 10.3102/10769986221099906

M3 - Article

SN - 1076-9986

VL - 47

SP - 576

EP - 602

JO - Journal of Educational and Behavioral Statistics

JF - Journal of Educational and Behavioral Statistics

IS - 5

ER -

Speed–Accuracy Trade-Off? Not So Fast: Marginal Changes in Speed Have Inconsistent Relationships With Accuracy in Real-World Settings

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Keywords

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