Ultrasound Transparent Neural Interfaces for Multimodal Interaction (collection)

Ultrasound Transparent Neural Interfaces for Multimodal Interaction

DOI:10.4121/b398b7bc-7f88-4d54-93b0-1ef0b8372392.v1

The DOI displayed above is for this specific version of this collection, which is currently the latest. Newer versions may be published in the future. For a link that will always point to the latest version, please use
DOI: 10.4121/b398b7bc-7f88-4d54-93b0-1ef0b8372392

Datacite citation style

Panskus, Raphael; Giagka, Vasiliki (2025): Ultrasound Transparent Neural Interfaces for Multimodal Interaction. Version 1. 4TU.ResearchData. collection. https://doi.org/10.4121/b398b7bc-7f88-4d54-93b0-1ef0b8372392.v1

Other citation styles (APA, Harvard, MLA, Vancouver, Chicago, IEEE) available at Datacite

Collection

Keywords

Bioelectronics Functional Ultrasound Imaging Neural Interfaces Ultrasound

Geolocation

Delft

by Raphael Panskus, Vasiliki Giagka

Data Collection and Measurements:

Data for the study "Ultrasound Transparent Neural Interfaces for Multimodal Interaction" were collected across three experimental categories: immersion experiments, phantom experiments, and in vivo experiments. Immersion experiments were conducted to validate and evaluate acoustic simulations, focusing on the transmission properties of the neural interface materials in a controlled medium. Phantom experiments involved functional ultrasound (fUS) imaging of tissue-mimicking phantoms to assess imaging performance and acoustic transparency under realistic conditions. Finally, in vivo experiments were performed using awake, head-fixed mice to evaluate the interface's compatibility with fUS neuroimaging in a living system. All experiment protocols are described in the method section.