Relational reasoning with derived comparative relations: A novel model of transitive inference

Anita Munnelly, Simon Dymond*, Elanor C. Hinton

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

23 Citations (Scopus)

Abstract

A behavior-analytic model of transitive inference (TI) as relational reasoning with derived comparative relations is outlined. Following nonarbitrary relational training and testing to establish contextual functions of " more than" (>) and " less than" (<) for two abstract stimuli, two groups of participants learned a series of contextually controlled more than or less than relations (All-More: E > D > C > B > A; All-Less: A < B < C < D < E). On meeting the training criterion, inferential tests were presented to both groups involving mutually entailed relations (All-More: A < B, B < C, C < D and D < E; All-Less: B > A, C > B, D > C and E > D) and one-step (A < C, B < D, C < E, C > A, D > B and E > C) and two-step (A < D, B < E, D > A and E > B) combinatorially entailed relations. Performance accuracy on the trained and inferential tasks was uniformly high across both groups, with no significant differences observed. In both groups, however, performance accuracy differed significantly on one-step and two-step combinatorially entailed tasks involving the same or different relation to that trained. The present findings demonstrate complex relational reasoning with derived comparative relations, replicate several key effects from the literature on TI and have potential implications for the development of a contemporary behavior-analytic account of TI.

Original languageEnglish
Pages (from-to)8-17
Number of pages10
JournalBehavioural Processes
Volume85
Issue number1
DOIs
Publication statusPublished - Sept 2010

Bibliographical note

Funding Information:
This research was funded by the Wales Institute for Cognitive Neuroscience ( WICI018 ) and was conducted as part of the first author's requirements for a master's in science (behavior analysis) degree under the supervision of the second author. The authors thank Dermot Barnes-Holmes and Marco Vasconcelos for helpful comments on an earlier draft, and Robert Whelan for providing the nonarbitrary stimulus sets.

Other keywords

  • Derived comparative relations
  • Less than
  • More than
  • Reasoning
  • Transitive inference

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