Multidimensional scaling by optimizing goodness of fit to a nonmetric hypothesisKruskal, J. B.
doi: 10.1007/bf02289565pmid: N/A
Abstract Multidimensional scaling is the problem of representingn objects geometrically byn points, so that the interpoint distances correspond in some sense to experimental dissimilarities between objects. In just what sense distances and dissimilarities should correspond has been left rather vague in most approaches, thus leaving these approaches logically incomplete. Our fundamental hypothesis is that dissimilarities and distances are monotonically related. We define a quantitative, intuitively satisfying measure of goodness of fit to this hypothesis. Our technique of multidimensional scaling is to compute that configuration of points which optimizes the goodness of fit. A practical computer program for doing the calculations is described in a companion paper.
Informational models and their usesBinder, Arnold;Wolin, Burton R.
doi: 10.1007/bf02289566pmid: N/A
Abstract An analysis of the selection and use of informational models in psychological research is undertaken. The axioms of different informational models are presented together with the deductions which have direct empirical application. The models are used to demonstrate many of the inadequacies and inaccuracies involved in the use of information theory in the psychological literature. It is also shown that certain related conceptual ambiguities are understandable in terms of confusions among various models.
Canonical correlations with fallible dataMeredith, William
doi: 10.1007/bf02289567pmid: N/A
Abstract The technique of canonical correlation may be used to determine the extent to which two sets of measurements reflect the same underlying traits. However, if the two sets are not perfectly reliable, the unreliability may obscure the fact that they are essentially dependent on similar processes. If we attempt to determine sets of weights so as to maximize the correlation between linear composites after correction for attenuation in the composites, it turns out that the results may be obtained by determining the canonical correlations and canonical regression weights between the true score components of the measures making up the two sets. In addition, formulas are developed for calculating the correlations between the canonical variates and original measures, both corrected and uncorrected for attenuation. A numerical example relating the verbal to the performance subtests of the Wechsler Intelligence Scale for Children is presented.
Mean performance and the factor analysis of learning dataRoss, John
doi: 10.1007/bf02289568pmid: N/A
Abstract The difference in factor structure resulting from the factorization of correlations, covariances, and cross products is discussed. Factoring cross products has the advantage of retaining information on both means and variances; this method of factoring learning data is recommended. The conditions under which factoring covariances and cross products lead to the same essential structure are investigated.
A new method for solving simultaneous linear equations associated with multivariate analysisWatson, F. R.
doi: 10.1007/bf02289569pmid: N/A
Abstract A method is outlined whereby the equations resulting from multivariate analyses may be solved. Only the upper or lower triangular coefficient matrix need be employed. All solutions involving any combination(s) of the variables represented in the coefficient matrix are readily obtainable without permutation of the matrix. All solutions are given immediately without the need for back solving. One variable is added to or subtracted from the regression equation with each application of the method. The method may be applied as repeatedly as needed for any particular solution.
On the interaction of the subject and the experiment in the matching modelSwentzell, Ralph;Roberts, Alan H.
doi: 10.1007/bf02289570pmid: N/A
Abstract Two types of matching designs, static and dynamic, are differentiated. While all matching designs are logically the same in terms of the probability model which determines chance level of performance, an attempt is made to demonstrate that there is an interaction between the tactics, strategies, and actual knowledge ofS and the type of design used which will, in turn, lead to different results even whenS's knowledge is held constant. It is suggested that analogous situations may exist within the framework of the traditional psychometric model.