非补偿的非参数化多策略认知诊断方法：NCNPMSC方法开发*

doi:10.16719/j.cnki.1671-6981.202304026

摘要/Abstract

摘要： 心理与教育认知诊断测验中常常存在一个题目包含多种解题策略的情况,参数化的多策略认知诊断模型需要足够的样本量以保证模型参数估计的准确性,而学校和班级规模的诊断测验难以满足参数化模型的样本量要求。本研究开发了一种新的简洁高效的非参数化多策略认知诊断分类（NCNPMSC）方法,该方法不需要进行参数估计,即使样本量为1人也能实现诊断分类。本文通过两个模拟研究和实证数据分析证明了NCNPMSC方法进行多策略诊断分类的合理性和可行性,为多策略认知诊断提供了新的方法支持。

关键词: 认知诊断, 多策略, 非参数化, 海明距离

Abstract: A variety of cognitive diagnosis models has been proposed in the literature to achieve diagnostic functions in a wide range of practical settings, but most of them assume that all students use the same strategy to solve problems. However, it is universal that an item has multiple strategies in psychological and educational cognitive diagnostic tests. Ignoring multiple strategies and fitting data using single-strategy CDMs could result in model misspecifications and inadequate model-data fit, which, in turn, causes concerns as to the validity of inferences. Although a few multi-strategy cognitive diagnosis models have been proposed in recent years, they are all parameterized models requiring a sufficient sample size to ensure the accuracy of model estimation, which is difficult to satisfy in class-level cognitive diagnostic tests.
To further enrich and improve the research of multi-strategy cognitive diagnosis models and provide methodological support for small sample size conditions, methods from a non-parametric perspective may be feasible and promising. A nonparametric and efficient diagnostic classification method, called NCNPMSC method (Non-compensatory Nonparametric Multiple-strategy Classification), was proposed in this study based on a single-strategy nonparametric diagnostic classification method. The principal steps of this method are as follows: first, the ideal response pattern of each strategy was constructed for each potential attribute pattern( α ) depending on the Q-matrix and unobservable α; then, the ideal response pattern of α_ion item j is defined as the maximum ideal response pattern among all strategies of item j; finally, the Hamming distances between the ideal response patterns and the observed item response vector are calculated, and the attribute pattern α corresponding to the minimum Hamming distance is selected as the attribute pattern of the subject i. This method can be performed with any sample size, and only requires a matrix that associates items with attributes.
Simulation research and empirical data analysis were conducted to verify the effectiveness of the NCNPMSC method and to compare it with the MS-DINA model and GMS-DINA model. The results showed that the proposed NCNPMSC method had a higher diagnostic accuracy rate, which was higher than that of the MS-DINA model and the GMS-DINA model. The NCNPMSC method was efficient and not affected by the sample size, which has potential advantages over other parameterized models. When the number of attributes increased to 7 and the number of strategies increased to 4, the NCNPMSC model still had a robust classification accuracy. The results from real data analysis showed that the NCNPMSC model had the same classification accuracy under different sample conditions, while the classification accuracy of the MS-DINA model and GMS-DINA model decreased significantly as the sample size decreased.
This study innovatively developed a simple and high-precision multi-strategy cognitive diagnosis method from a non-parametric perspective, which provides a solution for multi-strategy cognitive diagnosis under small sample conditions. The rationality and feasibility of the NCNPMSC method were proved by simulation research and theoretical derivation, which not only enriched and deepened the research of multi-strategy cognitive diagnosis but also provided methodological support for multi-strategy cognitive diagnosis in practice.

Key words: cognitive diagnosis, multi-strategy, nonparametric method, hamming distance

汪大勋, 肖清文, 谭青蓉, 蔡艳, 涂冬波. 非补偿的非参数化多策略认知诊断方法：NCNPMSC方法开发^*[J]. 心理科学, 2023, 46(4): 971-979.

Wang Daxun, Xiao Qingwen, Tan Qingrong, Cai Yan, Tu Dongbo. A Non-Parametric Multi-Strategy Cognitive Diagnosis Method[J]. Journal of Psychological Science, 2023, 46(4): 971-979.

参考文献

[1] 戴步云, 张敏强, 焦璨, 黎光明, 朱华伟, 张文怡. (2015). 基于CD-CAT的多策略RRUM模型及其选题方法开发. 心理学报, 47(12), 1511-1519.
[2] 李元白, 曾平飞, 杨亚坤, 康春花. (2018). 一种非参数的多策略方法: 多策略的海明距离判别法. 江西师范大学学报(自然科学版), 42(1), 67-73.
[3] 涂冬波, 蔡艳, 戴海琦, 丁树良. (2012). 一种多策略认知诊断方法: MSCD方法的开发. 心理学报, 44(11), 1547-1553.
[4] 汪文义, 宋丽红, 丁树良, 汪腾, 熊建. (2021). 非参数认知诊断方法下诊断结果的概率化表征. 心理科学, 44(5), 1249-1258.
[5] Chiu C. Y., Douglas J. A., & Li X. D. (2009). Cluster analysis for cognitive diagnosis: Theory and applications. Psychometrika, 74(4), 633-665.
[6] Chiu C. Y., Sun Y., & Bian Y. H. (2018). Cognitive diagnosis for small educational programs: The general Nonparametric classification method. Psychometrika, 83(2), 355-375.
[7] de la Torre, J., & Douglas, J. A. (2008). Model evaluation and multiple strategies in cognitive diagnosis: An analysis of fraction subtraction data. Psychometrika, 73(4), 595-624.
[8] Fuson K. C., Wearne D., Hiebert J. C., Murray H. G., Human P. G., Olivier A. I., & Fennema E. (1997). Children' s conceptual structures for multidigit numbers and methods of multidigit addition and subtraction. Journal for Research in Mathematics Education, 28(2), 130-162.
[9] Huo, Y., & de la Torre, J. (2014). Estimating a cognitive diagnostic model for multiple strategies via the EM algorithm. Applied Psychological Measurement, 38(6), 464-485.
[10] Liu Y. L., Xin T., Andersson B., & Tian W. (2019). Information matrix estimation procedures for cognitive diagnostic models. British Journal of Mathematical and Statistical Psychology, 72(1), 18-37.
[11] Ma, W. C., & Guo, W. J. (2019). Cognitive diagnosis models for multiple strategies. British Journal of Mathematical and Statistical Psychology, 72(2), 370-392.
[12] Star, J. R., & Rittle-Johnson, B. (2008). Flexibility in problem solving: The case of equation solving. Learning and Instruction, 18(6), 565-579.

[1]	刘耀辉陈琦鹏徐慧颖詹沛达. 纵向汉明距离判别法：对潜在属性的发展追踪[J]. 心理科学, 2023, 46(3): 742-751.
[2]	高旭亮王芳赵鹏娟. 多值评分CD-CAT的选题策略研究[J]. 心理科学, 2023, 46(2): 461-469.
[3]	郑天鹏周文杰郭磊 . 基于题目作答时间信息的认知诊断模型[J]. 心理科学, 2023, 46(2): 478-490.
[4]	唐小娟丁树良俞宗火. 题目属性向量平衡策略的认知诊断测验设计[J]. 心理科学, 2022, 45(6): 1466-1474.
[5]	李秋云蔡艳汪大勋涂冬波. 认知诊断框架下多级评分题目的DIF检测方法及其应用[J]. 心理科学, 2022, 45(4): 998-1007.
[6]	孙小坚刘彦楼王诗梦辛涛宋乃庆周蔓. 认知诊断测验中基于信息矩阵的多群组DIF检验[J]. 心理科学, 2022, 45(3): 710-717.
[7]	李俊杰马丽华曾平飞康春花. 基于理想作答反应构建的非参CD-CAT选题策略[J]. 心理科学, 2022, 45(2): 470-480.
[8]	王立君赵少勇昌维唐芳詹沛达. 重参数化多分属性DINA模型的多级评分拓广——基于等级反应模型[J]. 心理科学, 2022, 45(1): 195-203.
[9]	何洁毛秀珍唐倩王霞. 基于项目区分度的双目标CD-CAT选题策略[J]. 心理科学, 2022, 45(1): 204-212.
[10]	汪文义宋丽红丁树良汪腾熊建. 非参数认知诊断方法下诊断结果的概率化表征[J]. 心理科学, 2021, 44(5): 1249-1258.
[11]	高旭亮龚毅王芳. 多级评分认知诊断模型述评[J]. 心理科学, 2021, 44(2): 457-464.
[12]	詹沛达潘艳芳李菲茗. 面向“为学习而测评”的纵向认知诊断模型[J]. , 2021, 44(1): 214-222.
[13]	汪文义朱黎君叶宝娟方小婷. Bootstrap区间估计在认知诊断模型误设中的应用[J]. , 2020, 43(6): 1498-1505.
[14]	王立君唐芳詹沛达. 基于认知诊断测评的个性化补救教学效果分析：以“一元一次方程”为例[J]. , 2020, 43(6): 1490-1497.
[15]	汪文义丁树良宋丽红. 兼顾测验效率和题库使用率的CD-CAT选题策略[J]. 心理科学, 2014, 37(1): 212-216.

非补偿的非参数化多策略认知诊断方法：NCNPMSC方法开发^*

A Non-Parametric Multi-Strategy Cognitive Diagnosis Method

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics