Prediction outcome and choice reaction time: A memory-dependent relationship.

Geller, E. Scott; Whitman, Charles P.

doi:10.1037/h0033638

Cited by 6 publications

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“…The assumption implicit in either proeedure is that, onee a verbal prediction has been uttered, it will remain in memory, unchanged, until the stimulus in presented. Geller and Whitman (1972) have ehallenged this assumption by varying the time between a subject's predietion and the stimulus from 3 to 11 sec. Their results showed that, as the PSI inereased, the differenee in RT between eorreetly and ineorreetly predicted stimuli decreased, that is, aPrediction Outeome by PSI interaction.…”

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confidence: 99%

The time course of the verbal prediction effect

Acosta

Hinrichs

1979

Memory & Cognition

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Choice reaction times following correct verbal predictions of the presented stimulus are faster than after incorrect predictions. Two experiments examined the influence of the time interval (PSI) between the prediction and the stimulus on the magnitude of the prediction effect. Experiment 1 used equiprobable stimuli and showed a smaller prediction effect at a 2-sec PSI than at a 0-or .5-sec PSI. Experiment 2 used unequal-probability stimuli and showed that the prediction effect was independent of PSI when the more frequent stimulus was predicted. When the less frequent stimulus was predicted, however, the magnitude of the prediction effect was smaller at .75-and 2-sec PSIs than at a O-sec PSI. These resu1ts were discussed in terms of a prediction substitution hypothesis.

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confidence: 99%

The time course of the verbal prediction effect

Acosta

Hinrichs

1979

Memory & Cognition

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“…The apparatus and general procedure were similar to those used by Geller and Whitman (1972). The order of events on each of 198 RT trials were as follows: (1) The experimenter prompted the subject's stimulus prediction by illuminating the center, horizontal line (1.3 cm) of the seven-segment stimulus readout; (2) the subject predicted which of the two possible stimulus events would occur, a U symbol (called up) or a n symbol (called down); (3) with the left forefinger, the subject depressed one of two spring-return levers to indicate a stimulus prediction (these prediction levers were located on a panel to the left of the subject and were separated on a vertical axis by 7.7 cm; the uppermost lever was used to designate a prediction of U); (4) the subject's depression of the prediction lever initiated a time interval of 3, 7, or 11 sec; (5) a .25 -sec "ready" buzzer occurred and initiated a fixed interval of 1.5 sec; (6) the U or n symbol (5 x 1.3 cm) was presented by illuminating the appropriate segments of the seven-segment stimulus readout; (7) the subj·ect identified the stimulus presentation as quickly as possible by pulling a left-or right-hand reaction trigger.…”

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confidence: 99%

“…Supporting this simple expectancy interpretation of the PO effect are the observed relationships between choice RT and factors that presumably qualify the subject's stimulus predictions. For example, choice RT to correctly predicted stimuli was an inverse function of the confidence associated with the prediction , the probability of a correct prediction (Geller, 1974;, and the relative frequency of the stimulus predicted (e.g., Geller & Pitz, 1970; Geller, Whitman, Wrenn,& Shipley, 1971).The present research was designed to follow up an observation that the PO effect decreased as the interval between th~ subject's prediction and the stimulus presentation mcreased (Geller & Whitman, 1972). In the Geller and Whitman study, the prediction-to-stimulus (P-S) interval was 3, 7, or 11 sec, varying randomly among the 198 trials for each subject.…”

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“…Thus, the decrease in the PO effect as a function of the P-S interval was presumed to reflect a decay in the memory trace of the subject's verbalized expectancy over the range of intervals used. A prominent weakness in the Geller and Whitman (1972) study was the lack of control over the subjects' cognitive activities intervening between their predictions and the stimulus presentations. For example, after making a prediction, subjects could rehearse their prediction (thus strengthening their expectation) or think about task-irrelevant items (thus weakening their expectancy); therefore, it was actually inaccurate for Geller and Whitman to infer expectancy decay rather than expectancy interference from their findings .…”

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confidence: 99%

“…The present research was designed to follow up an observation that the PO effect decreased as the interval between th~ subject's prediction and the stimulus presentation mcreased (Geller & Whitman, 1972). In the Geller and Whitman study, the prediction-to-stimulus (P-S) interval was 3, 7, or 11 sec, varying randomly among the 198 trials for each subject.…”

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Studying short-term storage of expectancies with reaction time

Geller

1982

Bull. Psychon. Soc.

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On each of 198 choice reaction time (RT) trials, subjects verbally predicted which of two possible stimuli would occur and then waited 3, 7, or 11 sec before receiving a ready signal and the stimulus presentation. Four groups of 20 subjects each were defined by the nature of the distractor task interpolating the time between a prediction and the ready signal. These conditions were as follows: (1) No distraction task was required, (2) the subject vocally repeated the prediction until the ready signal sounded, (3) the subject counted backward by threes until the signal occurred, and (4) the subject repeated the nonpredicted stimulus until the signal occurred. Whereas RT to incorrectly predicted stimuli did not change as a function of retention interval for any group, RT to correctly predicted stimuli increased significantly as the interval increased for the count-backward and repeat-prediction groups. For the repeatnonprediction group RT to correct predictions varied inversely with the retention interval. These results were interpreted with reference to a two-process expectancy model, short-term expectancy decay vs. interference, and negative recency effects.When subjects are required to predict the sequentially presented stimuli in a two-choice reaction time (RT) experiment, choice RT is markedly shorter when the stimulus presentation has been predicted [Le ., a correct prediction outcome (PO)] than when the stimulus has not been predicted (Le., an incorrect PO) (e.g., Bernstein & Reese, 1965;Williams, 1966). A common explanation for this PO effect is that subjects maintain an expectancy for the stimulus predicted and process expected events faster than unexpected events (cf. Geller, 1974; Hinrichs & Kranz, 1970). Supporting this simple expectancy interpretation of the PO effect are the observed relationships between choice RT and factors that presumably qualify the subject's stimulus predictions. For example, choice RT to correctly predicted stimuli was an inverse function of the confidence associated with the prediction , the probability of a correct prediction (Geller, 1974;, and the relative frequency of the stimulus predicted (e.g., Geller & Pitz, 1970; Geller, Whitman, Wrenn,& Shipley, 1971).The present research was designed to follow up an observation that the PO effect decreased as the interval between th~ subject's prediction and the stimulus presentation mcreased (Geller & Whitman, 1972). In the Geller and Whitman study, the prediction-to-stimulus (P-S) interval was 3, 7, or 11 sec, varying randomly among the 198 trials for each subject. Geller and Whitman referred to differential short-term storage of expectancies in order to interpret their rmding that RT to correctly predicted stimuli was a direct function of the Reprints are available from the author, Department of Psychology, Virginia Polytechnic Institute and State University, Blacksburg, Virginia 24061.Copyright 1982 Psychonomic Society, Inc. 3 P-S interval and RT to incorrectly predicted stimuli varied inversely with the P-S interval. Thus, th...

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Prediction outcome and choice reaction time: Inhibition versus facilitation effects

Geller¹

1975

Acta Psychologica

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Prediction outcome and choice reaction time: A memory-dependent relationship.

Cited by 6 publications

References 7 publications

The time course of the verbal prediction effect

The time course of the verbal prediction effect

Studying short-term storage of expectancies with reaction time

Prediction outcome and choice reaction time: Inhibition versus facilitation effects

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