Generality of the summation effect in human causal learning Article

Soto, FA, Vogel, EH, Castillo, RD et al. (2009). Generality of the summation effect in human causal learning . QUARTERLY JOURNAL OF EXPERIMENTAL PSYCHOLOGY, 62(5), 877-889. 10.1080/17470210802373688

cited authors

  • Soto, FA; Vogel, EH; Castillo, RD; Wagner, AR

abstract

  • Considerable research has examined the contrasting predictions of the elemental and configural association theories proposed by Rescorla and Wagner (1972) and Pearce (1987), respectively. One simple method to distinguish between these approaches is the summation test, in which the associative strength attributed to a novel compound of two separately trained cues is examined. Under common assumptions, the configural view predicts that the strength of the compound will approximate to the average strength of its components, whereas the elemental approach predicts that the strength of the compound will be greater than the strength of either component. Different studies have produced mixed outcomes. In studies of human causal learning, Collins and Shanks (2006) suggested that the observation of summation is encouraged by training, in which different stimuli are associated with different submaximal outcomes, and by testing, in which the alternative outcomes can be scaled. The reported experiments further pursued this reasoning. In Experiment 1, summation was more substantial when the participants were trained with outcomes identified as submaximal than when trained with simple categorical (presence/absence) outcomes. Experiments 2 and 3 demonstrated that summation can also be obtained with categorical outcomes during training, if the participants are encouraged by instruction or the character of training to rate the separately trained components with submaximal ratings. The results are interpreted in terms of apparent performance constraints in evaluations of the contrasting theoretical predictions concerning summation. © 2008 The Experimental Psychology Society.

publication date

  • January 8, 2009

Digital Object Identifier (DOI)

start page

  • 877

end page

  • 889

volume

  • 62

issue

  • 5