Starting from an explicit scoring rule for time limit tasks incorporating both response time and accuracy, and a definite trade-off between speed and accuracy, a response model is derived. Since the scoring rule is interpreted as a sufficient statistic, the model belongs to the exponential family. The various marginal and conditional distributions for response accuracy and response time are derived, and it is shown how the model parameters can be estimated. The model for response accuracy is found to be the two-parameter logistic model. It is found that the time limit determines the item discrimination, and this effect is illustrated with the Amsterdam Chess Test II
Three models are presented that account for the effects of speed and precision in mental test scores...
The speed-ability trade-off becomes a measurement problem if there is between-subject variation in t...
Three models are presented that account for the effects of speed and precision in mental test score...
We investigate the relation between speed and accuracy within problem solving in its simplest non-tr...
We investigate the relation between speed and accuracy within problem solving in its simplest non-tr...
We investigate the relation between speed and accuracy within problem solving in its simplest non-tr...
With computerized testing, it is possible to record both the responses of test takers to test questi...
time limit tests, conditional accuracy function, speed-accuracy tradeoff, conditional logistic regre...
An item-selection algorithm is proposed for neutralizing the differential effects of time limits on ...
Current modeling of response times on test items has been strongly influenced by the paradigm of exp...
Current modeling of response times on test items has been strongly influenced by the paradigm of exp...
The assumption of conditional independence between response time and accuracy given speed and abilit...
The purpose of this paper is to review some of the key literature on response time as it has played ...
With advances in computerized tests, it has become commonplace to register not just the accuracy of ...
This article proposes an item response model that incorporates response time. A parameter estimation...
Three models are presented that account for the effects of speed and precision in mental test scores...
The speed-ability trade-off becomes a measurement problem if there is between-subject variation in t...
Three models are presented that account for the effects of speed and precision in mental test score...
We investigate the relation between speed and accuracy within problem solving in its simplest non-tr...
We investigate the relation between speed and accuracy within problem solving in its simplest non-tr...
We investigate the relation between speed and accuracy within problem solving in its simplest non-tr...
With computerized testing, it is possible to record both the responses of test takers to test questi...
time limit tests, conditional accuracy function, speed-accuracy tradeoff, conditional logistic regre...
An item-selection algorithm is proposed for neutralizing the differential effects of time limits on ...
Current modeling of response times on test items has been strongly influenced by the paradigm of exp...
Current modeling of response times on test items has been strongly influenced by the paradigm of exp...
The assumption of conditional independence between response time and accuracy given speed and abilit...
The purpose of this paper is to review some of the key literature on response time as it has played ...
With advances in computerized tests, it has become commonplace to register not just the accuracy of ...
This article proposes an item response model that incorporates response time. A parameter estimation...
Three models are presented that account for the effects of speed and precision in mental test scores...
The speed-ability trade-off becomes a measurement problem if there is between-subject variation in t...
Three models are presented that account for the effects of speed and precision in mental test score...