Subjects: Psychology >> Psychological Measurement submitted time 2023-11-22
Abstract: Cognitive diagnostic computerized adaptive testing (CD-CAT) provides a detailed diagnosis of an examinee’s strengths and weaknesses in the content measured in a timely and accurate manner, which can be used as a reference for further study or remediation planning, thus meeting the practical need for efficient and detailed test results. The successful implementation of CD-CAT is based on an item bank, but its maintenance is a very challenging task. A psychometrically popular choice for maintaining an item bank is online calibration. Currently, the research on online calibration methods in the CD-CAT that can calibrate Q-matrix and item parameters simultaneously is very weak. The existing methods are basically developed based on the deterministic input, noisy and gate (DINA) model. Compared with the DINA model, the generalized DINA (G-DINA) model has been more widely applied because it is less restrictive and can meet the requirements of a large number of test data in psychological and educational assessment. Therefore, if the online calibration method that jointly calibrates the Q-matrix and item parameters can be developed for models with few constraints such as G-DINA, its meaning is understood without explanation.
In current study, a new online calibration method, SCADOCM, was proposed, which was suitable for the G-DINA model. The construction of SCADOCM was based on the smoothly clipped absolute deviation penalty (SCAD) and marginalized maximum likelihood estimation (MMLE/EM) algorithm. For the new item j, the log-likelihood function with SCAD can be formulated based on the examinees’ responses in this item and the examinees’ attribute marginal mastery probability, and the q-vector of the new item can be estimated by the q-vector estimator based on SCAD. Then, the EM algorithm was used to estimate the item parameter of the new item j based on the posterior distributions of examinees’ attribute patterns, the examinees’ responses to new item j and the estimated q-vector.
To examine the performance of the proposed SCADOCM and compare it with the SIE method, two simulation studies (Study 1 and Study 2) are conducted. Study 1 is based on a simulated item bank while Study 2 is based on the real item bank (Internet addiction item bank; Shi, 2017). In these simulation studies, four factors were manipulated: the calibration sample size (nj = 50 vs. 100 vs. 500 vs. 1000 vs. 2000), the distribution of the attribute pattern (uniform distribution vs. high-order distribution vs. normal distribution), the item quality (U (0.05, 0.15) vs. U (0.1, 0.3)), and the online calibration methods (SCADOCM vs. SIE). The results showed that (1) SCADOCM has satisfactory calibration accuracy and calibration efficiency, and is superior to the SIE method. In addition, the traditional SIE method is not applicable for the G-DINA model, and its Q-matrix estimation accuracy rate is low under all experimental conditions. (2) The item calibration accuracy of SCADOCM and SIE increases with the increase of calibration sample and item quality under most conditions, and its item calibration accuracy in the uniform distribution/higher-order distribution is greater than that in the normal distribution. (3) The calibration efficiency of SCADOCM decreases with the increase of calibration samples, but it is less affected by the item quality and the attribute pattern distribution; the calibration efficiency of SIE decreases with the increase of calibration samples, but it is less affected by the item quality. Moreover, the calibration efficiency of the SIE method in the normal distribution is slightly slower than that of uniform distribution/high-order distribution.
To sum up the results, this study demonstrated that the SCADOCM has higher item calibration accuracy and calibration efficiency, and outperforms the SIE method; meanwhile, the traditional SIE method is not suitable for G-DINA model. All in all, this study provides an efficient and accurate method for item calibration in CD-CAT, and provides important support for further promoting the application of CD-CAT in practice.
Subjects: Psychology >> Cognitive Psychology submitted time 2022-03-30
Abstract:
"In recent years, numerous studies have shown that transcutaneous vagus nerve stimulation (tVNS), as a new and non-invasive neuromodulation technique, has a positive regulatory effect on the inhibitory control function of individuals. Previous studies have found that the regulation of inhibitory control by tVNS may be achieved by regulating the activity of the locus coeruleus norepinephrine system (LC-NE) and the concentration of the neurotransmitter GABA. However, there are still many unresolved problems about the neural mechanism of tVNS regulation of inhibitory control. After further optimizing the stimulation parameters of tVNS, future research can further explore the regulatory effect and mechanism of tVNS on the population with impaired inhibitory control ability, and how to achieve and enhance the long-term positive effects of tVNS.
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