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Understanding neural signals of post-decisional performance monitoring: An integrative review

Kobe Desender, K. Richard Ridderinkhof, Peter R. Murphy

2021eLife86 citationsDOIOpen Access PDF

Abstract

Performance monitoring is a key cognitive function, allowing to detect mistakes and adapt future behavior. Post-decisional neural signals have been identified that are sensitive to decision accuracy, decision confidence and subsequent adaptation. Here, we review recent work that supports an understanding of late error/confidence signals in terms of the computational process of post-decisional evidence accumulation. We argue that the error positivity, a positive-going centro-parietal potential measured through scalp electrophysiology, reflects the post-decisional evidence accumulation process itself, which follows a boundary crossing event corresponding to initial decision commitment. This proposal provides a powerful explanation for both the morphological characteristics of the signal and its relation to various expressions of performance monitoring. Moreover, it suggests that the error positivity -a signal with thus far unique properties in cognitive neuroscience - can be leveraged to furnish key new insights into the inputs to, adaptation, and consequences of the post-decisional accumulation process.

Topics & Concepts

Adaptation (eye)Process (computing)Computer scienceCognitionSIGNAL (programming language)Event-related potentialKey (lock)ElectroencephalographyFunction (biology)Artificial intelligenceCognitive psychologyMachine learningPsychologyNeuroscienceBiologyComputer securityOperating systemProgramming languageEvolutionary biologyNeural and Behavioral Psychology StudiesEEG and Brain-Computer InterfacesNeural dynamics and brain function
Understanding neural signals of post-decisional performance monitoring: An integrative review | Litcius