Dimensional Shift and the Transfer of Attention

Abstract

Dimensional shift was examined by generating gradients of two-dimensional stimulus generalization for intradimensional and extradimensional transfer of attention. Undergraduates discriminated between lines varying in length and orientation. Stimulus values were relevant on one dimension and irrelevant on another. For intradimensional transfer, the Phase 2 transfer task involved discriminating between new values on the dimension that was relevant in Phase 1. For extradimensional transfer, Phase 2 involved discriminating between new values on the dimension that was irrelevant in Phase 1. Extradimensional transfer was learned in twice the number of trials that were required for intradimensional transfer. In Experiment 1, generalization gradients obtained at different stages of Phase 2 training showed that control by the relevant dimension was maintained throughout the intradimensional transfer. In the extradimensional transfer, however, control by the previously relevant dimension was gradually lost before control by the new relevant dimension was acquired. Experiment 2 showed that the advantage of intradimensional over extradimensional transfer could not be attributed to cue-specific stimulus generalization. Experiment 3 showed that in extradimensional transfer the irrelevant dimension in Phase 1 retarded acquisition of control by the new relevant dimension in Phase 2. Experiment 4 showed that the irrelevant dimension masked control by the relevant dimension in the generalization test, but verified the conclusion from Experiment 3 that learned irrelevance contributed to the intradimensional-extra-dimensional transfer difference.