A state response measurement model for problem-solving process data

In computer simulation-based interactive tasks, different people make different response processes to the same tasks, resulting in various action sequences. These sequences contain rich information, not only about respondents, but also about tasks. In this study, we propose a state response (SR) mea...

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Bibliographic Details
Published in:Behavior research methods 2024-01, Vol.56 (1), p.258-277
Main Authors: Xiao, Yue, Liu, Hongyun
Format: Article
Language:English
Subjects:
Bayesian analysis
Behavioral Science and Psychology
Cognitive Psychology
Computer simulation
Parameter estimation
Problem solving
Psychology
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Summary:In computer simulation-based interactive tasks, different people make different response processes to the same tasks, resulting in various action sequences. These sequences contain rich information, not only about respondents, but also about tasks. In this study, we propose a state response (SR) measurement model with a Bayesian approach for analyzing the process sequences, which assumes that each action made is determined by the individual's problem-solving ability and the easiness of the current problem state. This model is closer to reality compared with the action sub-model (referred to as DC model) of Chen’s ( 2020 ) continuous-time dynamic choice (CTDC) measurement model that defines the easiness parameter only at the task level and ignores the task's process characteristics. The simulation study showed that the SR model performed well in parameter estimation. Moreover, the estimation accuracy of the SR model was quite similar to that of the DC model when state easiness parameters were equal within the task, but was much higher when within-task state easiness parameters were unequal. For the empirical data from the Program for International Student Assessment 2012, the SR model showed better model fit than the DC model. The estimates for state easiness parameters within each task were obviously different and made sense for characterizing task steps, further demonstrating the rationality of the proposed SR model.
ISSN:1554-3528
1554-3528
DOI:10.3758/s13428-022-02042-9