A cognitive framework for explaining serial processing and sequence execution strategies

Verwey, Willem B.; Shea, Charles H.; Wright, David L.

doi:10.3758/s13423-014-0773-4

Cited by 114 publications

(157 citation statements)

References 246 publications

(444 reference statements)

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“…Explicit sequence knowledge was correlated with the IED for older adults in keeping with previous findings (Verwey, 2010), suggesting that when older adults are executing keying sequences this may not solely rely on pure motor representations. This is in line with the recently proposed cognitive framework for sequential motor behavior (C-SMB, Verwey et al, 2015), built on the foundations of the DPM, which postulates that the representations underlying motor skill and motor chunks may be mixed. That is, verbal and/or visuospatial central-symbolic representations may underlie skilled sequence performance too.…”

Section: Discussionsupporting

confidence: 82%

Differences in chunking behavior between young and older adults diminish with extended practice

Barnhoorn

Asseldonk

Verwey

2017

Psychological Research

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Previous research found reduced motor chunking behavior in older adults compared to young adults. However, it remains unclear whether older adults are unable to use a chunking strategy or whether they are just slower in developing them. Our goal was to investigate the effect of extended practice on the development of chunking behavior in healthy older adults. A group of young and a group of healthy older adults between 74 and 85 years of age visited the lab on 2 days. A sequence of 3 and a sequence of 6 elements were both practiced 432 times in a discrete sequence production task. We found that age differences in chunking behavior, as measured by the difference between initiation and execution of the sequence, diminish with extended practice. Furthermore, in older, but not in young adults, slow responses that are often interpreted as the first response of a next motor chunk were associated with a finger that was also slow during performance of the random sequences. This finding calls for more attention to biomechanical factors in future theory about aging and sequence learning.

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Section: Discussionsupporting

confidence: 82%

Differences in chunking behavior between young and older adults diminish with extended practice

Barnhoorn

Asseldonk

Verwey

2017

Psychological Research

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“…Execution rate of such familiar sequences appears to decrease only little when element-specific stimuli are no longer displayed, while in contrast, execution rate decreases substantially if only a single element is being altered (Abrahamse et al, 2013;Verwey, 1999Verwey, , 2010. There is general consensus now that skilled motor behavior is based on a practice-, task-, and age-dependent mixture of various sequence representations (Panzer, Gruetzmacher, Ellenbuerger, & Shea, 2014;Shea et al, 2016;Verwey, Shea, & Wright, 2015;Wiestler, Waters-Metenier, & Diedrichsen, 2014). These ideas have recently been worked out in the cognitive framework for Sequential Motor Behavior (C-SMB; Verwey et al, 2015) which distinguishes between motor chunks, spatial, and verbal central-symbolic sequence representations, and associative sequence representations.…”

Section: Multiple Sequence Representationsmentioning

confidence: 99%

“…These verbal and spatial representations are said to underlie the so-called central-symbolic execution mode . The responsible central-symbolic representations develop more rapidly than motor chunks, but they are associated with lower execution rates than motor chunks because it takes substantial processing to extract the individual movements from these abstract representations (Hikosaka et al, 1999;Verwey et al, 2015). The more abstract a sequence representation the slower execution of the motor sequence that it controls.…”

Section: Multiple Sequence Representationsmentioning

confidence: 99%

Skill in discrete keying sequences is execution rate specific

Verwey

Dronkers

2018

Psychological Research

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The present study tested the hypothesis that in motor sequences, the interval between successive movements is critical for the type of representation that develops. Participants practiced two 7-key sequences in the context of a discrete sequence production (DSP) task. The 0-RSI group practiced these sequences with response stimulus intervals (RSIs) of 0, which is typical for the DSP task, while the long-RSI group practiced the same sequences with unpredictable RSIs between 500 and 2000 ms. The ensuing test phase examined performance of these familiar and of unfamiliar sequences for both groups under both RSI regimes. The results support our hypothesis that the motor chunks that 0-RSI participants developed could not be used with long RSIs, whereas the long-RSI participants developed sequence representations that cannot be used with 0 RSIs. A new, computerized, sequence awareness task showed that long-RSI participants had limited sequence knowledge. The sequencing skill developed by long-RSI participants can, therefore, not have been based on explicit knowledge.

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“…Indicative of a motor chunk is a relatively slow initiation (i.e., first key press) followed by faster subsequent responses. There was no evidence of multiple motor chunks, i.e., key presses with a long response time after the first one, which would point to additional preparation processes [54].…”

Section: Task and Proceduresmentioning

confidence: 92%