This paper proposes an item selection algorithm that can be used to neutralize the effect of time limits in computer adaptive testing. The method is based on a statistical model for the response-time distributions of the test takers on the items in the pool that is updated each time a new item has been administered. Predictions from the model are used as constraints in a 0-1 linear programming model for constrained adaptive testing that maximizes the accuracy of the ability estimator. The method is demonstrated empirically using an item pool from an operational, large-scale computer adaptive test
Previous attempts at incorporating expert test construction practices into computerized adaptive tes...
Previous attempts at incorporating expert test construction practices into computerized adaptive tes...
In existing computerized adaptive testing (CAT) programs, each successive item in the test is chosen...
This paper proposes an item selection algorithm that can be used to neutralize the effect of time li...
An item-selection algorithm is proposed for neutralizing the differential effects of time limits on ...
Traditional methods for item selection in computerized adaptive testing only focus on item informati...
A model for constrained computerized adaptive testing is proposed in which the information on the te...
Response times on items can be used to improve item selection in adaptive testing provided that a pr...
A model for constrained computerized adaptive testing is proposed in which the information on the te...
Many standardized tests are now administered via computer rather than paper-and-pencil format. The c...
Two simple constraints on the item parameters in a response–time model are proposed to control the s...
Two simple constraints on the item parameters in a response–time model are proposed to control the s...
Many standardized tests are now administered via computer rather than paper-and-pencil format. The c...
Fan et al. (2012) demonstrated that inversely weighting the maximum information criterion (MIC) by t...
AbstractMost Computerized adaptive tests (CATs) are constructed on the foundation of standard item r...
Previous attempts at incorporating expert test construction practices into computerized adaptive tes...
Previous attempts at incorporating expert test construction practices into computerized adaptive tes...
In existing computerized adaptive testing (CAT) programs, each successive item in the test is chosen...
This paper proposes an item selection algorithm that can be used to neutralize the effect of time li...
An item-selection algorithm is proposed for neutralizing the differential effects of time limits on ...
Traditional methods for item selection in computerized adaptive testing only focus on item informati...
A model for constrained computerized adaptive testing is proposed in which the information on the te...
Response times on items can be used to improve item selection in adaptive testing provided that a pr...
A model for constrained computerized adaptive testing is proposed in which the information on the te...
Many standardized tests are now administered via computer rather than paper-and-pencil format. The c...
Two simple constraints on the item parameters in a response–time model are proposed to control the s...
Two simple constraints on the item parameters in a response–time model are proposed to control the s...
Many standardized tests are now administered via computer rather than paper-and-pencil format. The c...
Fan et al. (2012) demonstrated that inversely weighting the maximum information criterion (MIC) by t...
AbstractMost Computerized adaptive tests (CATs) are constructed on the foundation of standard item r...
Previous attempts at incorporating expert test construction practices into computerized adaptive tes...
Previous attempts at incorporating expert test construction practices into computerized adaptive tes...
In existing computerized adaptive testing (CAT) programs, each successive item in the test is chosen...