File:Donsker theorem for normal distributions.gif
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Summary
| Description |
English: ```python
import numpy as np import matplotlib.pyplot as plt import scipy import tempfile import os import imageio
def plot_bridge(samples=None, n=1000, dist=scipy.stats.norm, dist_name="normal", low=-3, high=+3): fig, axes = plt.subplot_mosaic("ABB", figsize=(20, 6))
ax1 = axes["A"]
ax2 = axes["B"]
if samples is None:
samples = dist.rvs(size=n)
else:
n = len(samples)
x = sorted(samples)
y = dist.cdf(x)
ref_x = np.linspace(low,high, 1000)
ref_y = dist.cdf(ref_x)
# calculate empirical cdf
ecdf = np.arange(n) / len(samples)
# plot cdf of standard normal distribution and empirical cdf of samples
ax1.plot(ref_x, ref_y, label='Standard CDF')
ax1.plot(x, ecdf, label='Empirical CDF')
ax1.set_title()
ax1.set_xlim(low,high)
ax1.legend()
ax1.set_ylim(0,1)
ax2.plot([0.0] + dist.cdf(x) .tolist() + [1.0],
[0.0] + (np.sqrt(n) * (ecdf - dist.cdf(x))).tolist() + [0.0])
ax2.set_title('centered, scaled, and re-timed')
ax2.set_ylim(-0.9, 0.9)
fig.suptitle(f"{dist_name}, with n = {n}")
return fig
def interpolate_counts(counts, frames_per_step): interpolated_counts = [counts[0]]
for i in range(1,len(counts)):
interval = (counts[i] - counts[i-1]) // i
interpolated_counts += list(range(counts[i-1], counts[i], interval))
return interpolated_counts + [counts[-1]]
with tempfile.TemporaryDirectory() as temp_dir: dist = scipy.stats.norm dist_name = "normal" low, high = -3.5, +3.5 n_steps = 16
frames_per_step = 10
sample_counts = interpolate_counts([2**n for n in range(n_steps)], frames_per_step)
n_frames = len(sample_counts)-1
samples = dist.rvs(size=sample_counts[0]).tolist()
for i in range(n_frames):
samples += dist.rvs(size=sample_counts[i+1]-sample_counts[i]).tolist()
fig = plot_bridge(samples, dist=dist, dist_name=dist_name, low=low,high=high)
filename = os.path.join(temp_dir, f"plot_{i:03d}.png")
fig.savefig(filename)
plt.close(fig)
# Compile images into GIF
fps = 12
images = []
for i in range(n_frames):
filename = os.path.join(temp_dir, f"plot_{i:03d}.png")
images.append(imageio.imread(filename))
imageio.mimsave(f"{dist_name} Donsker theorem.gif", images, duration=1/fps)
``` |
| Date | |
| Source | Own work |
| Author | Cosmia Nebula |
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| Date/Time | Thumbnail | Dimensions | User | Comment | |
|---|---|---|---|---|---|
| current | 01:09, 4 March 2023 | | 2,000 × 600 (4.5 MB) | imagescommonswiki>Cosmia Nebula | Uploaded own work with UploadWizard |
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- File:Donsker theorem for normal distributions.gif from Wikimedia Commons
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