Getting Started with BCI2000

Howto steps

• Install Prerequisites

shows you how to install TortoiseSVN, CMake, VisualStudio, and Qt.

• Register with the BCI2000 Project

explains how to obtain a BCI2000 user account.

• Download the BCI2000 Sourcecode

details the steps how to use TortoiseSVN to download the BCI2000 sourcecode.

• Configure BCI2000 for Compilation

demonstrates how to use CMake to create a BCI2000 solution file.

• Compile BCI2000

illustrates how to compile BCI2000 using VisualStudio.

• Create a custom Signal Processing Module

shows how to create a new BCI2000 module from a template.

• Attach the Debugger to a BCI2000 Module

explains how to attach the VisualStudio debugger to a running module.

• Programmatically wait for the Debugger in a BCI2000 Module

explains how to halt execution of a BCI2000 module, and wait for the user to attach a debugger.

• Deploy a Release version of a BCI2000 Module

demonstrates how to build a self-contained version of your new module.

Video Overview

Getting Started with Cortec BIC in BCI2000

• CortecADC

This article shows how to configure and use the Cortec BIC in BCI2000

• Contributions:XsensMTwLogger

This article shows how to combine any BCI2000 source module the XsensMTw device to capture motion simultaneously with electrophysiological signals.

Canine Surgical Procedure

This article presents a brief introduction to surgical protocols for the implantation of the CorTec Brain Interchange. The main objective is to introduce the essential surgical considerations for implanting this device in different animal models.

Download the surgical protocol here.

Video Demonstrations of Using CorTec Brain Interchange with BCI2000

Configuring the Time and Location of Stimulation of the CorTec Brain Interchange with BCI2000

Controlling the Stimulation Frequency of the CorTec Brain Interchange with BCI2000

Controlling the Stimulation Intensity of the CorTec Brain Interchange with BCI2000

Synchronize the acquisition of neural signals from the CorTec Brain Interchange with behavioral data from inertial measurement units

Preliminary experience with the CorTec BrainInterchange device in a canine modele

This article describes initial work toward an ecosystem for adaptive neuromodulation in humans by documenting the experience of implanting CorTec's BrainInterchange (BIC) device in a beagle canine and using the BCI2000 environment to interact with the BIC device. It begins with laying out the substantial opportunity presented by a useful, easy-to-use, and widely available hardware/software ecosystem in the current landscape of the field of adaptive neuromodulation, and then describes experience with implantation, software integration, and post-surgical validation of recording of brain signals and implant parameters. Initial experience suggests that the hardware capabilities of the BIC device are fully supported by BCI2000, and that the BIC/BCI2000 device can record and process brain signals during free behavior. With further development and validation, the BIC/BCI2000 ecosystem could become an important tool for research into new adaptive neuromodulation protocols in humans.

Schalk G, Worrell S, Mivalt F, Belsten A, Kim I, Morris JM, Hermes D, Klassen BT, Staff NP, Messina S, Kaufmann T, Rickert J, Brunner P, Worrell GA, Miller KJ. Toward a fully implantable ecosystem for adaptive neuromodulation in humans: Preliminary experience with the CorTec BrainInterchange device in a canine model. Front Neurosci. 2022 Dec 19;16:932782. doi: 10.3389/fnins.2022.932782. PMID: 36601593; PMCID: PMC9806357.

Download the article here.

Data Sharing

This data recorded is freely available on DANDI and OpenNeuro.

Download the canine data from DANDI.

Download the canine data from OpenNeuro.