Integrating Implantable BCI Devices within BCI2000 Using a Unified Framework and Toolchain for In-Vivo Research

Author

Dhruva Mehta, Washington University in St. LouisFollow

Abstract

The field of neurotechnology research has a bright and promising future as more devices are created. However, there are still many gaps in the field as the potential for neuromodulation grows. Devices such as the Micro-Leads StimZ system and the Ripple Grapevine/Summit system help bridge that gap by allowing for a broader variety of closed-loop neuromodulation experiments to be implemented thanks to their portability and versatility. Despite these devices being on the market, however, there needs to be a method to collaborate and interact with them across multiple research institutions. BCI2000 helps to address that by creating a standardized working framework for brain-computer research experiments. The implementation of the StimZ system and Ripple system within BCI2000 is just the first step towards what is possible for the field of neuromodulation.

Committee Chair

Dr. Peter Brunner

Committee Members

Dr. Dan Moran Dr. Ismael Seáñez

Degree

Master of Science (MS)

Author's Department

Biomedical Engineering

Author's School

McKelvey School of Engineering

Document Type

Thesis

Date of Award

Spring 5-8-2024

Language

English (en)

DOI

https://doi.org/10.7936/h78n-4309

Author's ORCID

https://orcid.org/0009-0004-4735-3329

Recommended Citation

Mehta, Dhruva, "Integrating Implantable BCI Devices within BCI2000 Using a Unified Framework and Toolchain for In-Vivo Research" (2024). McKelvey School of Engineering Theses & Dissertations. 1021.

The definitive version is available at https://doi.org/10.7936/h78n-4309