Dissertations and Theses
Date of Award
2024
Document Type
Thesis
Department
Psychology
First Advisor
Robert Melara
Second Advisor
Manuel Gomez-Ramirez
Keywords
Attention, Selective Attention, Distractor Suppression, Tactile Modality, Haptic Perception
Abstract
The ability to select sensory information in our environment is key to facilitating goal-directed actions. Sensory selection mechanisms are prevalent in all sensory modalities, and can be implemented by enhancing information at the relevant location and/or suppressing neural information outside the focus of attention (a mechanism known as distractor suppression). Although we have a decent understanding of how the brain enhances information within the focus of attention, less is known about the mechanisms that mediate suppression of distractors, especially in sensory modalities outside vision. In this study, we conducted a series of behavioral experiments to investigate the spatial flexibility of distractor suppression mechanisms in touch. Our aim was to understand how distractor suppression is spatially deployed in the hand, determine the spatial resolution of this suppression, and examine how anticipating a relevant or irrelevant location impacts performance. To explore these questions, we conducted three experiments using variations of a vibrotactile discrimination task. Unexpectedly, the results indicated that certain distractors arrangements spatially close to the relevant location decrease discriminability as the information may be integrated together. Further investigation is needed to determine whether these effects are due to attentional, perceptual, or decisional processes.
Recommended Citation
Serino, Nicole A., "Exploring Spatial Operations of Distractor Suppression in the Sense of Touch" (2024). CUNY Academic Works.
https://academicworks.cuny.edu/cc_etds_theses/1165