A Monitoring System for Measuring the Cognitive Cycle via a Continuous Reaction Time Task

A Monitoring System for Measuring the Cognitive Cycle via a Continuous Reaction Time Task

The cognitive cycle has been studied via cognitive architectures and by analyzing cognitive experiments. An emerging theoretical approach suggests that several automatic cognitive processes retrieve information, making it available to an internal agent, which in turn decides which information to acc...

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Bibliographic Details
Main Authors: Teodor Ukov, Georgi Tsochev, Radoslav Yoshinov
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Systems
Subjects:
cognitive cycle
cognitive monitoring system
reaction time task
attention as internal action
Online Access:https://www.mdpi.com/2079-8954/13/7/597
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Summary:The cognitive cycle has been studied via cognitive architectures and by analyzing cognitive experiments. An emerging theoretical approach suggests that several automatic cognitive processes retrieve information, making it available to an internal agent, which in turn decides which information to access. Derived from this view, four phases of the cognitive cycle can be formulated and reproduced within a cognitive monitoring system. This exploratory work presents a new theory, Attention as Internal Action, and proposes a hypothesis about the relationship between an iteration of the cognitive cycle and a conscious motor action. The design of a continuous reaction time task is presented as a tool for quick cognitive evaluation. Via continuously provided user responses, the computational system behind the task adapts triggering stimuli based on the suggested hypothesis. Its software implementation was employed to assess whether a previously conducted simulation of the cognitive cycle’s time range aligned with empirical data. A control group was assigned to perform a separate simple reaction time task in a sequence of five days. The analysis showed that the experimental cognitive monitoring system produced results more closely aligned with the established understanding of the timing of the cognitive cycle than the control task did.
ISSN:2079-8954

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