Spontaneous Recovery From Forward and Backward Blocking.

Pineño, Oskar; Urushihara, Kouji; Miller, Ralph R.

doi:10.1037/0097-7403.31.2.172

Cited by 30 publications

(41 citation statements)

References 36 publications

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“…The SOCR model (as the extended comparator hypothesis, which serves as its basis) has trouble to explain changes in responding to a CS as function of passage of time. Specifically, the SOCR model fails to explain relevant findings in the stimulus competition literature, such as spontaneous recovery of responding after overshadowing (Kraemer, Lariviere, & Spear, 1988) or blocking (Pineño, Urushihara, & Miller, 2005). The problem of the SOCR model is, not only that there is no mechanism by which passage of time could affect responding to a CS, but also that there is no obvious reason why the mechanisms already existing in the model should be affected by passage of time.…”

Section: Some Effects the Response Rule Can Explain (But Socr Cannot)mentioning

confidence: 73%

A response rule for positive and negative stimulus interaction in associative learning and performance

Pineño

2007

Psychonomic Bulletin & Review

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Section: Some Effects the Response Rule Can Explain (But Socr Cannot)mentioning

confidence: 73%

A response rule for positive and negative stimulus interaction in associative learning and performance

Pineño

2007

Psychonomic Bulletin & Review

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“…Second, there are other instances of recovery from decremental procedures with the passage of time. For instance, Kraemer, Lariviere, and Spear (1988) and Pineño, Urushihara, and Miller (2005) have reported that with the passage of time there is recovery from the adverse effects of overshadowing and blocking, respec- tively. Those results differ from the present ones in that overexpectation involves the depression of a previously well-conditioned stimulus, rather than the attenuation of initial conditioning.…”

Section: Discussionmentioning

confidence: 99%

Spontaneous recovery from overexpectation

Rescorla

2006

Learning & Behavior

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A major conclusion from contemporary studies of Pavlovian conditioning is that conditioned stimuli (CSs) interact with each other as they develop associations with an unconditioned stimulus (US). One of the most striking demonstrations of this interaction is the phenomenon of overexpectation, in which the usual incrementing action of a US on a CS is reversed because of the contemporaneous presence of a second CS. In a standard demonstration of overexpectation (e.g., Khallad & Moore, 1996;Kremer, 1978;Rescorla, 1970;Wagner, 1971), two stimuli, A and B, are separately paired with a US until they achieve asymptotic conditioning. Then they are presented as an AB compound and the same reinforcement is continued. In many conditioning preparations, this joint presentation of A and B in compound results in greater responding than that produced by either stimulus alone-so-called summation (e.g., Mackintosh, 1974;Pavlov, 1927). Of particular interest, following the AB compound by the same US results in a decrease in subsequent responding to the A and B stimuli (e.g., Lattal & Nakajima, 1998;Rescorla, 1999).This phenomenon was originally derived as a prediction from the Rescorla-Wagner (1972) model. According to that model, and to many other contemporary models of conditioning, changes in associative strength are governed by an error calculation in which the current associative strength of the CS compound (V AB ) is compared with the strength that the US is capable of producing (λ). Initial conditioning of A and B individually results in the separate associative strengths (V A and V B ) each achieving levels near λ. However, presentation of the AB compound results in a combining of their associative strengths such that the total exceeds λ. As a result, the error calculation that occurs on a reinforced AB trial yields a negative result; that is, it produces a decrease in the associative strength of the elements. Casually put, the US is overexpected on the compound trials, and since the effect of a US depends on its discrepancy from expectation, the result of a trial is associative decrement. This sort of model views overexpectation as involving the same process as does extinction produced by nonreinforcement. In both cases, the trial consequent is lower than that anticipated on the basis of the stimuli present on the trial, resulting in a negative error term. In both cases, the result is a decrease in associative strength of the stimuli present on the trial.The simplistic inference from such models that extinction results in a reversal of the action of conditioning has largely been discarded. Both classical and contemporary phenomena have led to this decision. For instance, Pavlov (1927) was the first to report that the decremental effects of extinction diminish with the passage of time, resulting in spontaneous recovery. This led him, and most subsequent thinkers, to conclude that at least a portion of the original associative learning had remained in place. A more contemporary finding, leading to the same conclusion, is t...

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“…Despite the fact that B is absent in the second phase, it loses strength. Typically, however, the amount of reduction in backward blocking is weaker than the amount of reduction in forward blocking (see e.g., Beckers, De Houwer, Pineño, & Miller, 2005;Kruschke & Blair, 2000;Lovibond, Been, Mitchell, Bouton, & Frohardt, 2003;Pineño, Urushihara, & Miller, 2005;Shanks, 1985). This asymmetry in strengths of forward and backward blocking is a trialorder effect that is challenging for extant time-independent Bayesian approaches.…”

Section: Application To Blocking and Backward Blockingmentioning

confidence: 99%

Locally Bayesian learning with applications to retrospective revaluation and highlighting.

Kruschke¹

2006

Psychological Review

108

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A scheme is described for locally Bayesian parameter updating in models structured as successions of component functions. The essential idea is to back-propagate the target data to interior modules, such that an interior component's target is the input to the next component that maximizes the probability of the next component's target. Each layer then does locally Bayesian learning. The approach assumes online trial-by-trial learning. The resulting parameter updating is not globally Bayesian but can better capture human behavior. The approach is implemented for an associative learning model that first maps inputs to attentionally filtered inputs and then maps attentionally filtered inputs to outputs. The Bayesian updating allows the associative model to exhibit retrospective revaluation effects such as backward blocking and unovershadowing, which have been challenging for associative learning models. The back-propagation of target values to attention allows the model to show trial-order effects, including highlighting and differences in magnitude of forward and backward blocking, which have been challenging for Bayesian learning models.

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Spontaneous Recovery From Forward and Backward Blocking.

Cited by 30 publications

References 36 publications

A response rule for positive and negative stimulus interaction in associative learning and performance

A response rule for positive and negative stimulus interaction in associative learning and performance

Spontaneous recovery from overexpectation

Locally Bayesian learning with applications to retrospective revaluation and highlighting.

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