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Learning & Behavior
Erschienen in: Learning & Behavior 2/2018

03.11.2017

Associative structure of second-order conditioning in humans

verfasst von: Paul Craddock, Jessica S. Wasserman, Cody W. Polack, Thierry Kosinski, Charlotte Renaux, Ralph R. Miller

Erschienen in: Learning & Behavior | Ausgabe 2/2018

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Abstract

Second-order conditioning (SOC; i.e., conditioned responding to S2 as a result of S1–US pairings followed by S2–S1 pairings) is generally explained by either a direct S2→US association or by an associative chain (i.e., S2→S1→US). Previous research found that differences in responses to S2 after S1 was extinguished often depended on the nature of the S2–S1 pairings (i.e., sequential or simultaneous). In two experiments with human participants, we examined the possibility that such differences result from S1 evoking S2 during extinction of S1 following simultaneous but not sequential S2–S1 pairings. This evocation of S2 by S1 following simultaneous pairings may have paired the evoked representation of S2 with absence of the outcome, thereby facilitating mediated extinction of S2. Using sequential S2-S1 pairings, both Experiments 1 and 2 failed to support this account of how extinction of S1 reduced responding to S2. Experiment 1 found that extinguishing S1 reduced responding to S2, while extinguishing S2 had little effect on responses to S1, although forward evocation of S1 during extinction of S2 paired the evoked representation of S1 with absence of the outcome. In Experiment 2, evocation of S2 during S1 nonreinforced trials was prevented because S2–S1 pairings followed (rather than proceeded) S1-alone exposures. Nevertheless, responding to S2 at test mimicked S1 responding. Responding to S2 was high in the context in which S1 had been reinforced and low in the context in which S1 had been nonreinforced. Collectively, these experiments provide additional support for the associative-chain account of SOC.
Vorheriger Artikel Measuring the “transfer of meaning” through members of equivalence classes merged via a class-specific reinforcement procedure
Nächster Artikel Running-based pica and taste avoidance in rats

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Fußnoten
1
In both the associative-chain and the direct association accounts S2’s capacity to elicit a CR might be all that is necessary at test, but it might be immediately preceded by activation of the representation of the US. We fully acknowledge this possibility, but discussion of this possibility here is distracting from the present concern regarding the role of S1. Whether activation of the US representation is involved is a parallel feature of both accounts. Our glossing over this issue for clarity should not be taken as an attempt to dismiss a potential role for the US representation.
 
2
It should be noted that Dickinson and Burke’s (1996) modification of Wagner’s (1981) SOP model also made predictions concerning the modification of the associations to an absent cue when its companion cue is extinguished. But their explanation cannot account for the decrease in responding to S2 when S1 is extinguished in the simultaneous condition (e.g., Rescorla, 1982) because their model assumes that retrieved representations of stimuli are activated into the A2 state (of the Dickinson & Burke model) and that representations evoked into the same state of activation establish an excitatory association. Therefore, because S2 and the US are evoked in the same state of activation (A2) when S1 is presented alone following simultaneous presentations of S2 and S1, extinction of S1 is predicted to increase rather than decrease responding to S2.
 
Literatur
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Metadaten
Titel
Associative structure of second-order conditioning in humans
verfasst von
Paul Craddock
Jessica S. Wasserman
Cody W. Polack
Thierry Kosinski
Charlotte Renaux
Ralph R. Miller
Publikationsdatum
03.11.2017
Verlag
Springer US
Erschienen in
Learning & Behavior / Ausgabe 2/2018
Print ISSN: 1543-4494
Elektronische ISSN: 1543-4508
DOI
https://doi.org/10.3758/s13420-017-0299-5

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