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A touching advantage: cross-modal stop-signals improve reactive response inhibition

Maximilian A. Friehs, Philipp Schmalbrock, Simon Merz, Martin Dechant, Gesa Hartwigsen, Christian Frings

2024Experimental Brain Research11 citationsDOIOpen Access PDF

Abstract

The ability to inhibit an already initiated response is crucial for navigating the environment. However, it is unclear which characteristics make stop-signals more likely to be processed efficiently. In three consecutive studies, we demonstrate that stop-signal modality and location are key factors that influence reactive response inhibition. Study 1 shows that tactile stop-signals lead to better performance compared to visual stop-signals in an otherwise visual choice-reaction task. Results of Study 2 reveal that the location of the stop-signal matters. Specifically, if a visual stop-signal is presented at a different location compared to the visual go-signal, then stopping performance is enhanced. Extending these results, study 3 suggests that tactile stop-signals and location-distinct visual stop-signals retain their performance enhancing effect when visual distractors are presented at the location of the go-signal. In sum, these results confirm that stop-signal modality and location influence reactive response inhibition, even in the face of concurrent distractors. Future research may extend and generalize these findings to other cross-modal setups.

Topics & Concepts

Stop signalSIGNAL (programming language)Modality (human–computer interaction)Response inhibitionComputer scienceTask (project management)ModalPsychologyArtificial intelligenceCommunicationComputer visionNeuroscienceEngineeringChemistryCognitionSystems engineeringPolymer chemistryProgramming languageLatency (audio)TelecommunicationsNeural and Behavioral Psychology StudiesVisual perception and processing mechanismsNeural dynamics and brain function
A touching advantage: cross-modal stop-signals improve reactive response inhibition | Litcius