Built-in plotting methods for Raw objects¶
This tutorial shows how to plot continuous data as a time series, how to plot
the spectral density of continuous data, and how to plot the sensor locations
and projectors stored in
Opening raw data file /home/circleci/mne_data/MNE-sample-data/MEG/sample/sample_audvis_raw.fif... Read a total of 3 projection items: PCA-v1 (1 x 102) idle PCA-v2 (1 x 102) idle PCA-v3 (1 x 102) idle Range : 25800 ... 192599 = 42.956 ... 320.670 secs Ready. Reading 0 ... 36037 = 0.000 ... 60.000 secs...
The first three are discussed here in detail; the last two are shown briefly and covered in-depth in other tutorials.
It may not be obvious when viewing this tutorial online, but by default, the
plot method generates an interactive plot window with
several useful features:
It spaces the channels equally along the y-axis.
20 channels are shown by default; you can scroll through the channels using the ↑ and ↓ arrow keys, or by clicking on the colored scroll bar on the right edge of the plot.
The number of visible channels can be adjusted by the
n_channelsparameter, or changed interactively using page up and page down keys.
You can toggle the display to “butterfly” mode (superimposing all channels of the same type on top of one another) by pressing b, or start in butterfly mode by passing the
It shows the first 10 seconds of the
You can shorten or lengthen the window length using home and end keys, or start with a specific window duration by passing the
You can scroll in the time domain using the ← and → arrow keys, or start at a specific point by passing the
startparameter. Scrolling using shift→ or shift← scrolls a full window width at a time.
It allows clicking on channels to mark/unmark as “bad”.
It allows interactive annotation of the raw data.
This allows you to mark time spans that should be excluded from future computations due to large movement artifacts, line noise, or other distortions of the signal. Annotation mode is entered by pressing a. See Basic annotation for details.
It automatically applies any projectors before plotting the data.
These can be enabled/disabled interactively by clicking the
Projbutton at the lower right corner of the plot window, or disabled by default by passing the
proj=Falseparameter. See Background on projectors and projections for more info on projectors.
These and other keyboard shortcuts are listed in the Help window, accessed
Help button at the lower left corner of the plot window.
Other plot properties (such as color of the channel traces, channel order and
grouping, simultaneous plotting of events, scaling, clipping,
filtering, etc.) can also be adjusted through parameters passed to the
plot method; see the docstring for details.
Effective window size : 3.410 (s) Effective window size : 3.410 (s) Effective window size : 3.410 (s)
If the data have been filtered, vertical dashed lines will automatically
indicate filter boundaries. The spectrum for each channel type is drawn in
its own subplot; here we’ve passed the
average=True parameter to get a
summary for each channel type, but it is also possible to plot each channel
individually, with options for how the spectrum should be computed,
color-coding the channels by location, and more. For example, here is a plot
of just a few sensors (specified with the
picks parameter), color-coded
by spatial location (via the
spatial_colors parameter, see the
plot_psd for full details):
Effective window size : 3.410 (s)
Alternatively, you can plot the PSD for every sensor on its own axes, with
the axes arranged spatially to correspond to sensor locations in space, using
Effective window size : 3.410 (s)
This plot is also interactive; hovering over each “thumbnail” plot will
display the channel name in the bottom left of the plot window, and clicking
on a thumbnail plot will create a second figure showing a larger version of
the selected channel’s spectral density (as if you had called
plot_psd on that channel).
plot_psd_topo will show only the MEG
channels if MEG channels are present; if only EEG channels are found, they
will be plotted instead:
Removing projector <Projection | PCA-v1, active : False, n_channels : 102> Removing projector <Projection | PCA-v2, active : False, n_channels : 102> Removing projector <Projection | PCA-v3, active : False, n_channels : 102> Effective window size : 3.410 (s)
The channel locations in a
Raw object can be easily plotted
plot_sensors method. A brief example is shown
here; notice that channels in
raw.info['bads'] are plotted in red. More
details and additional examples are given in the tutorial
Working with sensor locations.
As seen in the output of
mne.io.read_raw_fif above, there are
projectors included in the example
file (representing environmental noise in the signal, so it can later be
“projected out” during preprocessing). You can visualize these projectors
plot_projs_topomap method. By default it will
show one figure per channel type for which projectors are present, and each
figure will have one subplot per projector. The three projectors in this file
were only computed for magnetometers, so one figure with three subplots is
generated. More details on working with and plotting projectors are given in
Background on projectors and projections and Repairing artifacts with SSP.
Total running time of the script: ( 0 minutes 15.052 seconds)
Estimated memory usage: 217 MB