A circular diffusion model of continuous-outcome source memory retrieval: Contrasting continuous and threshold accounts

Zhou, Jason; Osth, Adam F; Lilburn, Simon D.; Smith, Philip L.

doi:10.3758/s13423-020-01862-0

Cited by 22 publications

(27 citation statements)

References 61 publications

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“…However, using ROC curves to distinguish between continuous and discrete processing has serious limitations, whether they are constructed by manipulating response bias or by using confidence ratings (e.g., Bröder & Schütz, 2009; Rouder et al, 2021). More recently, formal modeling of confidence rating distributions (Province & Rouder, 2012) and reaction time (RT) distributions (Zhou et al, 2021) has been used to compare discrete and continuous theories. There is not a consensus on which of these approaches is the most appropriate for comparing discrete and continuous processing, and in most applications an entire cognitive process (e.g., working memory, recognition memory, perception) is determined to be mediated by either continuous or discrete processing, making it difficult to directly compare purportedly continuous and discrete cases.…”

Section: Discussionmentioning

confidence: 99%

Local motion pooling is continuous, global motion perception is discrete.

Green¹,

Pratte²

2022

Journal of Experimental Psychology: Human Perception and Perfor

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Perceiving the motion of an object is thought to involve two stages: Local motion energy is measured at each point in space, and these signals are then pooled across space to build coherent global motion. There are several theories of how local-to-global pooling occurs, but they all predict that global motion perception is a continuous process, such that increasing the strength of motion energy should gradually increase the precision of perceived motion directions. We test this prediction against the alternative that global motion perception is discrete: Motion is either perceived with high precision or fails to be perceived altogether. Data from human observers provides clear evidence that, whereas pooling local motion energy is continuous, the segmentation of local signals into coherent global motion patterns is a discrete process. This result adds motion perception to the growing list of processes that exhibit evidence of all-or-none visual awareness. Public Significance StatementVisual perception requires that objects are isolated from other objects, a process that is accomplished in part by analyzing motion energy across space. For example, although individual parts of a running dog may be moving in many directions at any moment, all of them share motion energy in the direction he's running, which helps the visual system to build the perception of a coherently moving object. This global motion process develops early in life, and deficits in it have been identified in disorders including autism, dyslexia, and schizophrenia. Whereas current theories of global motion perception predict that motion perception is analog, taking on any value from weak to strong, here we show that it is discrete: coherent motion is either perceived nearly perfectly, or not at all. This finding suggests that current models of global motion perception, and theories of why deficits in this process occur, may require substantial revision.

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Section: Discussionmentioning

confidence: 99%

Local motion pooling is continuous, global motion perception is discrete.

Green¹,

Pratte²

2022

Journal of Experimental Psychology: Human Perception and Perfor

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“…A number of studies that collected both item recognition and source memory ratings for the same items have found either a complete lack of source memory for unrecognized items (Malejka & Broder, 2016;Onyper et al, 2010;Bell et al, 2017) or at least very poor memory (Fox & Osth, 2020), suggesting that heavy-tailed distributions of responses may instead reflect a proportion of unrecognized items. To test this possibility, Zhou et al (2021) collected both item recognition and continuous outcome source memory judgments for the same items. While unrecognized items indeed showed no source memory, as evidenced by a flat distribution of source responses, when source recall was conditioned on recognized items heavy-tailed distributions were still found.…”

Section: Continuous-outcome Tasksmentioning

confidence: 99%

“…In the current study, we consider two additional sources of variability not considered in the Harlow and Donaldson (2013) work: the possibility that a nontarget item is reported instead of the target item and variability due to properties of the decision-making process which acts upon the information retrieved from memory to generate the observed response. To account for the contribution of decision processes to response variability, Zhou et al (2021) applied the circular diffusion model (Smith, 2016) to a source memory task using Harlow and Donaldson's (2013) paradigm. Unlike empirical characterizations of response error, like the one provided by the wrapped Cauchy model, the predicted distribution of response errors in the circular diffusion model is derived from an evidence accumulation model of the retrieval process.…”

Section: Continuous-outcome Tasksmentioning

confidence: 99%

“…Across-trial variability in drift rate is the circular diffusion model's counterpart of variable precision, as assumed in the successful model of visual working memory of van den Berg et al (2014). In a previous study, Zhou et al (2021) investigated whether this property of the diffusion decision model could account for the distribution of errors in source memory retrieval observed by Harlow and Donaldson (2013), without needing a threshold in the memory retrieval process. To do so, in Zhou et al (2021) we compared three different variants of the circular diffusion model: 1) a single diffusion process with across-trial drift rate variability, 2) a two-component mixture of a diffusion process with drift rate fixed across trials, and a zero-drift process (i.e.…”

Section: Circular Diffusion Model Of Continuous Reportmentioning

confidence: 99%

“…However, under many conditions the predictions of the models have been found to mimic each other (Yonelinas & Parks, 2007;Klauer & Kellen, 2010;Wixted, 2007). This model mimicry has led researchers to test model predictions in continuous outcome source retrieval, in which heavy-tailed distributions of responses have been argued to reflect guesses from failed source retrieval (Harlow & Donaldson, 2013;Zhou, Osth, Lilburn, & Smith, 2021). The focus of the present work is in evaluating whether the heavy-tailed distributions are the reflection of failed source retrieval or are instead the result of intrusions from non-target responses.…”

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confidence: 99%

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The Spatiotemporal Gradient of Intrusion Errors in Continuous Outcome Source Memory

Zhou¹,

Osth²,

Smith³

2022

Preprint

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Previous research has characterized source retrieval as a thresholded process, which fails on a proportion of trials and leads to guessing, as opposed to a continuous process, where response precision varies across trials but is never zero. The thresholded view of source retrieval is largely based on the observation of heavy tailed distributions of response errors, thought to reflect a large proportion of “memory-less” trials. In this study, we investigate whether these errors might instead reflect systematic intrusions from other list items which can mimic source guessing. Using the circular diffusion of decision making, which accounts for both response errors and RTs we found that intrusions account for some, but not all, errors in a continuous-report source memory task. Additionally, we found that intrusion errors were more likely to come from items studied in nearby locations and times, but not from semantically or perceptually similar cues. Our findings support a thresholded view of source retrieval but suggest that previous work has overestimated the proportion of guesses which have been conflated with intrusions.

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Obtaining Stable Predicted Distributions of Response Times and Decision Outcomes for the Circular Diffusion Model

2023

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The circular diffusion model represents continuous outcome decision making as evidence accumulation by a two-dimensional Wiener process with drift on the interior of a disk, whose radius represents the decision criterion for the task. The hitting point on the circumference of the disk represents the decision outcome and the hitting time represents the decision time. The Girsanov change-of-measure theorem applied to the first-passage time distribution for the Euclidean distance Bessel process yields an explicit expression for the joint distribution of decision outcomes and decision times for the model. A problem with the expression for the joint distribution obtained in this way is that the change-of-measure calculation magnifies numerical noise in the series expression for the Bessel process, which can make the expression unstable at small times when the drift rate or decision criterion is large. We introduce a new method that uses an asymptotic approximation to characterize the Bessel process at short times and the series expression for the large times. The resulting expressions are stable across all parts of the parameter space likely to be of interest in experiments, which greatly simplifies the task of fitting the model to data. The new method applies to the spherical and hyperspherical generalizations of the model and to versions of it in which the drift rates are normally distributed across trials with independent or correlated components.

show abstract

A circular diffusion model of continuous-outcome source memory retrieval: Contrasting continuous and threshold accounts

Cited by 22 publications

References 61 publications

Local motion pooling is continuous, global motion perception is discrete.

Local motion pooling is continuous, global motion perception is discrete.

The Spatiotemporal Gradient of Intrusion Errors in Continuous Outcome Source Memory

Obtaining Stable Predicted Distributions of Response Times and Decision Outcomes for the Circular Diffusion Model

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