# MRI与脑电图 显示一组带有MRI图像的子图,其强度直方图和一些EEG轨迹。 ![MRI与脑电图示例](https://matplotlib.org/_images/sphx_glr_mri_with_eeg_001.png) ```python import numpy as np import matplotlib.pyplot as plt import matplotlib.cbook as cbook import matplotlib.cm as cm from matplotlib.collections import LineCollection from matplotlib.ticker import MultipleLocator fig = plt.figure("MRI_with_EEG") # Load the MRI data (256x256 16 bit integers) with cbook.get_sample_data('s1045.ima.gz') as dfile: im = np.fromstring(dfile.read(), np.uint16).reshape((256, 256)) # Plot the MRI image ax0 = fig.add_subplot(2, 2, 1) ax0.imshow(im, cmap=cm.gray) ax0.axis('off') # Plot the histogram of MRI intensity ax1 = fig.add_subplot(2, 2, 2) im = np.ravel(im) im = im[np.nonzero(im)] # Ignore the background im = im / (2**16 - 1) # Normalize ax1.hist(im, bins=100) ax1.xaxis.set_major_locator(MultipleLocator(0.4)) ax1.minorticks_on() ax1.set_yticks([]) ax1.set_xlabel('Intensity (a.u.)') ax1.set_ylabel('MRI density') # Load the EEG data n_samples, n_rows = 800, 4 with cbook.get_sample_data('eeg.dat') as eegfile: data = np.fromfile(eegfile, dtype=float).reshape((n_samples, n_rows)) t = 10 * np.arange(n_samples) / n_samples # Plot the EEG ticklocs = [] ax2 = fig.add_subplot(2, 1, 2) ax2.set_xlim(0, 10) ax2.set_xticks(np.arange(10)) dmin = data.min() dmax = data.max() dr = (dmax - dmin) * 0.7 # Crowd them a bit. y0 = dmin y1 = (n_rows - 1) * dr + dmax ax2.set_ylim(y0, y1) segs = [] for i in range(n_rows): segs.append(np.column_stack((t, data[:, i]))) ticklocs.append(i * dr) offsets = np.zeros((n_rows, 2), dtype=float) offsets[:, 1] = ticklocs lines = LineCollection(segs, offsets=offsets, transOffset=None) ax2.add_collection(lines) # Set the yticks to use axes coordinates on the y axis ax2.set_yticks(ticklocs) ax2.set_yticklabels(['PG3', 'PG5', 'PG7', 'PG9']) ax2.set_xlabel('Time (s)') plt.tight_layout() plt.show() ``` ## 下载这个示例 - [下载python源码: mri_with_eeg.py](https://matplotlib.org/_downloads/mri_with_eeg.py) - [下载Jupyter notebook: mri_with_eeg.ipynb](https://matplotlib.org/_downloads/mri_with_eeg.ipynb)