利用智能辅导系统进行神经影像学跟踪精神状态。

Neural imaging to track mental states while using an intelligent tutoring system.

机构信息

Department of Psychology, Carnegie Mellon University, Pittsburgh, PA 15211, USA.

出版信息

Proc Natl Acad Sci U S A. 2010 Apr 13;107(15):7018-23. doi: 10.1073/pnas.1000942107. Epub 2010 Mar 24.

DOI:10.1073/pnas.1000942107

PMID:20335536

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2872451/

Abstract

Hemodynamic measures of brain activity can be used to interpret a student's mental state when they are interacting with an intelligent tutoring system. Functional magnetic resonance imaging (fMRI) data were collected while students worked with a tutoring system that taught an algebra isomorph. A cognitive model predicted the distribution of solution times from measures of problem complexity. Separately, a linear discriminant analysis used fMRI data to predict whether or not students were engaged in problem solving. A hidden Markov algorithm merged these two sources of information to predict the mental states of students during problem-solving episodes. The algorithm was trained on data from 1 day of interaction and tested with data from a later day. In terms of predicting what state a student was in during a 2-s period, the algorithm achieved 87% accuracy on the training data and 83% accuracy on the test data. The results illustrate the importance of integrating the bottom-up information from imaging data with the top-down information from a cognitive model.

摘要

脑活动的血流动力学测量可以用于解释学生在与智能辅导系统交互时的心理状态。当学生使用教授代数同构的辅导系统时，收集了功能磁共振成像（fMRI）数据。认知模型根据问题复杂性的测量来预测解决方案时间的分布。此外，线性判别分析使用 fMRI 数据来预测学生是否正在解决问题。隐马尔可夫算法将这两个信息源合并，以预测学生在解决问题时的心理状态。该算法在 1 天的交互数据上进行训练，并在后续的 1 天的数据上进行测试。就预测学生在 2 秒时间段内处于哪种状态而言，该算法在训练数据上的准确率为 87%，在测试数据上的准确率为 83%。结果表明，将来自成像数据的自下而上的信息与来自认知模型的自上而下的信息相结合非常重要。

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