A recent candidate for explaining metamemory judgments is the perceptual fluency hypothesis, which proposes that easily perceived items are predicted to be remembered better, regardless of actual memory performance (Rhodes & Castel Journal of Experimental Psychology: General 137:615-625, 2008). In two experiments, we used the perceptual interference manipulation to test this hypothesis. In Experiment 1, participants were presented with intact and backward-masked words during encoding, followed by a metamemory prediction (a list-wide judgment of learning, JOL) and then a free recall test. Participants predicted that intact words would be better recalled, despite better actual memory for words in the perceptual interference condition, yielding a crossed double dissociation between predicted and actual memory performance. In Experiment 2, JOLs were made after each study word. Item-by-item JOLs were likewise higher for intact than for backward-masked words, despite similar actual memory performance for both types of words. The results are consistent with the perceptual fluency hypothesis of metamemory and are discussed in terms of experiencebased and theory-based metamemory judgments.
Judgments of learning (JOLs) are sometimes influenced by factors that do not impact actual memory performance. One recent proposal is that perceptual fluency during encoding affects metamemory and is a basis of metacognitive illusions. In the present experiments, participants identified aurally presented words that contained inter-spliced silences (the generate condition) or that were intact, a manipulation analogous to visual generation manipulations. The generate condition produced lower perceptual fluency as assessed by both accuracy and identification latency. Consistent with the perceptual fluency hypothesis, the less fluent, generate condition produced lower JOLs than the intact condition. However, actual memory performance was greater in the generation than intact condition in free recall (Experiment 1) and recognition (Experiment 3). The negative effect of generation on JOLs occurred for both aggregate and item-by-item JOLs, but in the latter case, the positive generation effect in actual memory performance was reduced or eliminated (as also occurs with visual generation tasks; Experiments 2 and 4). Furthermore, the decrease in perceptual fluency produced by the generation manipulation was correlated with the decrease in JOLs for this condition (Experiment 5). The negative effect of generation on JOLs persisted even when participants were warned that the generation condition produces equal or greater memory performance compared to the intact condition (Experiment 6). The results are in accord with the perceptual fluency hypothesis and show that this metamemory illusion is related to objective measures of perceptual difficulty. With regard to actual memory performance, this novel auditory generation manipulation produces results consistent with those produced in the visual modality.
The perceptual fluency hypothesis claims that items that are easy to perceive at encoding induce an illusion that they will be easier to remember, despite the finding that perception does not generally affect recall. The current set of studies tested the predictions of the perceptual fluency hypothesis with a picture generation manipulation. Participants identified mixed lists of intact images and images whose certain parts were deleted (generate condition) and made predictions about their subsequent memory performance, followed by a recall test. The intact condition always produced higher memory predictions and shorter identification latencies than the generate condition, consistent with the perceptual fluency hypothesis (Experiments 1 to 3). The actual memory performance for generate images was higher than intact images when aggregate judgments of learning (JOLs) were used (Experiment 1) and equivalent to intact images when item-by-item JOLs were used (Experiment 2 to 3). In Experiment 3, introducing a manipulation that facilitates naming latency for generate images did not increase JOL ratings, providing evidence that not all manipulations that facilitate the ease of perception produce higher JOLs. In Experiment 4, the role of a priori beliefs for the picture generation manipulation was assessed through an online questionnaire. Reading a scenario about the manipulation produced no JOL differences for intact and generate images. The results of the 4 experiments reported here are generally consistent with the perceptual fluency hypothesis of metamemory, and are discussed in terms of experience-based and theory-based processes in metamemory judgments and Koriat's (1997) cue utilization framework. (PsycINFO Database Record
The perceptual fluency hypothesis proposes that items that are easier to perceive at study will be given higher memorability ratings, as compared with less fluent items. However, prior research has examined this metamemorial cue primarily using mixed-list designs. Furthermore, certain memory effects are moderated by the design (mixed list vs. pure list) used to present stimuli. The present study utilized mixed as well as pure lists to assess whether judgments of learning based on perceptual fluency are relative or absolute and whether people are sensitive to differences in recall produced by variation in list composition. Using font size and generation manipulations, Experiments 1 and 2 showed that the effect of perceptual fluency on metamemory is relative in nature, occurring only in mixed lists. Experiments 2 and 3 revealed that metamemory is insensitive to the effect of list composition on recall. These findings are consistent with the assumptions of Koriat's (Journal of Experimental Psychology: General 126: 349-370, 1997) cue-utilization framework, that JOLs reflect a comparative process and are insensitive to cues pertaining to conditions of learning.
Remember-Know (RK) and source memory tasks were designed to elucidate processes underlying memory retrieval. As part of more complex judgments, both tests produce a measure of old-new recognition, which is typically treated as equivalent to that derived from a standard recognition task. The present study demonstrates, however, that recognition accuracy can be qualitatively changed by a RK or source-retrieval orientation. Visual and auditory presentations of words were varied at encoding and at test. The memory test was either a standard (old-new) recognition test, the RK test, or a source (modality) test. No effect of modality match was found on standard recognition. However, recognition accuracy in the RK and modality tests was greater when study and test modalities matched-a result obtained for both 1-step (e.g., R, K, or new?) and 2-step (e.g., old-new decision followed by RK decision for items judged old) versions of these tests. Thus, the RK and source (modality) memory procedures produced a measure of old-new recognition that was qualitatively different than standard recognition, having a greater sensitivity to perceptual information.
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