pybv is a lightweight I/O utility for the BrainVision data format.
The BrainVision data format is a recommended data format for use in the Brain Imaging Data Structure.
The documentation can be found under the following links:
- for the stable release
- for the latest (development) version
BrainVision is the name of a file format commonly used for storing electrophysiology data. Originally, it was put forward by the company Brain Products, however the simplicity of the format has allowed for a diversity of tools reading from and writing to the format.
The format consists of three separate files:
- A text header file (
.vhdr) containing meta data - A text marker file (
.vmrk) containing information about events in the data - A binary data file (
.eeg) containing the voltage values of the EEG
Both text files are based on the Microsoft Windows INI format consisting of:
- sections marked as
[square brackets] - comments marked as
; comment - key-value pairs marked as
key=value
The binary .eeg data file is written in little-endian format without a Byte Order
Mark (BOM), in accordance with the specification by Brain Products.
This ensures that the data file is uniformly written irrespective of the
native system architecture.
A documentation for the BrainVision file format is provided by Brain Products. You can view the specification as hosted by Brain Products.
pybv runs on Python version 3.8 or higher.
pybv's only dependency is numpy.
However, we currently recommend that you install MNE-Python for reading BrainVision data.
See their installation instructions.
After you have a working installation of MNE-Python (or only numpy if you
do not want to read data and only write it), you can install pybv through
the following:
pip install --upgrade pybv
or if you use conda:
conda install --channel conda-forge pybv
The development of pybv is taking place on
GitHub.
For more information, please see CONTRIBUTING.md
The primary functionality provided by pybv is the write_brainvision
function. This writes a numpy array of data and provided metadata into a
collection of BrainVision files on disk.
from pybv import write_brainvision
# for further parameters see our API documentation
write_brainvision(data=data, sfreq=sfreq, ch_names=ch_names,
fname_base=fname, folder_out=tmpdir,
events=events)Currently, pybv recommends using MNE-Python
for reading BrainVision files.
Here is an example of the MNE-Python code required to read BrainVision data:
import mne
# Import the BrainVision data into an MNE Raw object
raw = mne.io.read_raw_brainvision('tmp/test.vhdr', preload=True)
# Reconstruct the original events from our Raw object
events, event_ids = mne.events_from_annotations(raw)The BrainVision data format is very popular and accordingly there are many software packages to read this format, or write to it. The following table is intended as a quick overview of packages similar to pybv. Please let us know if you know of additional packages that should be listed here.
| Name of software | Language | Notes |
|---|---|---|
| BioSig Project | miscellaneous | Reading and writing capabilities depend on bindings used, see their overview |
| Brainstorm | MATLAB | Read and write, search for brainamp in their io functions |
| BrainVision Analyzer | n/a, GUI for Windows | Read and write, by Brain Products, requires commercial license |
| brainvisionloader.jl | Julia | Read |
| EEGLAB | MATLAB / Octave | Read and write via BVA-IO |
| FieldTrip | MATLAB | Read and write, search for brainvision in their ft_read_data and ft_write_data functions |
| MNE-Python | Python | Read (writing via pybv) |
This package was originally adapted from the Philistine package by palday. It copies much of the BrainVision exporting code, but removes the dependence on MNE. Several features have been added, such as support for individual units for each channel.