Michael Niepel scite author profile

The effect of the spatial frequency (SF) of visual gratings on reaction time (RT) and temporal-order judgment (TOJ) was examined in three experiments. In experiment 1 the visual stimuli were vertical sinusoidal gratings with SFs between 2 and 8 cycles deg-1 and the comparison stimulus in the TOJ task was a 2300 Hz tone. Whereas SF had a highly significant effect on RT, it left TOJ completely unaffected. To test whether this dissociation was due to the sharp (high SF) horizontal edges of the gratings, a second experiment was carried out with circular stimuli with no sharp edges. These stimuli did produce an effect of SF on TOJ, but it was significantly smaller than was the effect on RT. In experiment 3 we confirmed that this difference was not due to differences in grating orientation between the first two experiments. These findings (a) solve discrepancies between findings reported in the literature and (b) strongly suggest that RT and TOJ cannot be regarded as converging operations for determining 'visual latency'. This dissociation can best be accounted for by assuming that the output of early stimulus analysis can feed directly into the motor system (direct parameter specification), whereas the conscious representation that is used for TOJ is based on later integrative processes.

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Temporal characteristics of the surprise reaction induced by schema-discrepant visual and auditory events

Niepel

Rudolph

Schützwohl

et al. 1994

Cognition & Emotion

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Independent manipulation of stimulus change and unexpectedness dissociates indices of the orienting response

Niepel

2001

Psychophysiology

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Results obtained with the standard repetition-change paradigm of orienting research cannot be attributed unambiguously to either stimulus change or to unexpectedness. By adding announcement conditions, in which participants were told about an impending stimulus change, these two factors were disentangled. In Experiment 1, reaction times (RTs) were longer and ratings of surprise were higher with unannounced than with announced stimulus change. In contrast, larger skin conductance response (SCR) magnitudes occurred following change, irrespective of its congruence with participants' expectations. Experiment 2 replicated the results for SCR magnitude and, furthermore, revealed the same pattern of results for the evoked cardiac response. Surprise ratings again reflected the unexpectedness of stimulus presentations. The dissociation between RT and autonomic measures provides difficulties for resource allocation accounts of the orienting response.

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Two Characteristics of Surprise: Action Delay and Attentional Focus

Niepel¹,

Rudolph²,

Schützwohl³

et al. 1994

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Michael Niepel

An experimental analysis of surprise

A Dissociation between Reaction Time to Sinusoidal Gratings and Temporal-Order Judgment

Temporal characteristics of the surprise reaction induced by schema-discrepant visual and auditory events

Independent manipulation of stimulus change and unexpectedness dissociates indices of the orienting response

Two Characteristics of Surprise: Action Delay and Attentional Focus

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