考虑二维高斯模型中的噪声
Gab*_*iel 5 python cluster-analysis machine-learning gaussian mixture-model
我需要将二维高斯嵌入大量均匀噪声中,如下左图所示。我尝试将sklearn.mixture.GaussianMixture与两个组件(代码在底部)一起使用,但这显然失败了,如下右图所示。
我想为属于二维高斯和均匀背景噪声的每个元素分配概率。这似乎是一个足够简单的任务,但我没有找到“简单”的方法来完成它。
有什么建议吗?它不需要是 GMM,我对其他方法/包持开放态度。
import numpy as np
import matplotlib.pyplot as plt
from sklearn import mixture
# Generate 2D Gaussian data
N_c = 100
xy_c = np.random.normal((.5, .5), .05, (N_c, 2))
# Generate uniform noise
N_n = 1000
xy_n = np.random.uniform(.0, 1., (N_n, 2))
# Combine into a single data set
data = np.concatenate([xy_c, xy_n])
# fit a Gaussian Mixture Model with two components
model = mixture.GaussianMixture(n_components=2, covariance_type='full')
model.fit(data)
probs = model.predict_proba(data)
labels = model.predict(data)
# Separate the two clusters for plotting
msk0 = labels == 0
c0, p0 = data[msk0], probs[msk0].T[0]
msk1 = labels == 1
c1, p1 = data[msk1], probs[msk1].T[1]
# Plot
plt.subplot(121)
plt.scatter(*xy_n.T, c='b', alpha=.5)
plt.scatter(*xy_c.T, c='r', alpha=.5)
plt.xlim(0., 1.)
plt.ylim(0., 1.)
plt.subplot(122)
plt.scatter(*c0.T, c=p0, alpha=.75)
plt.scatter(*c1.T, c=p1, alpha=.75)
plt.colorbar()
# display predicted scores by the model as a contour plot
X, Y = np.meshgrid(np.linspace(0., 1.), np.linspace(0., 1.))
XX = np.array([X.ravel(), Y.ravel()]).T
Z = -model.score_samples(XX)
Z = Z.reshape(X.shape)
plt.contour(X, Y, Z)
plt.show()
我认为核密度可以帮助您定位高斯并排除其之外的点(例如在密度较小的区域中)
这是一个示例代码:
import numpy as np
import matplotlib.pyplot as plt
from sklearn import mixture
from sklearn.neighbors import KernelDensity
# Generate 2D Gaussian data
N_c = 100
xy_c = np.random.normal((.2, .2), .05, (N_c, 2))
# Generate uniform noise
N_n = 1000
xy_n = np.random.uniform(.0, 1., (N_n, 2))
# Combine into a single data set
data = np.concatenate([xy_c, xy_n])
print(data.shape)
model = KernelDensity(kernel='gaussian',bandwidth=0.05)
model.fit(data)
probs = model.score_samples(data)
# Plot
plt.subplot(131)
plt.scatter(*xy_n.T, c='b', alpha=.5)
plt.scatter(*xy_c.T, c='r', alpha=.5)
plt.xlim(0., 1.)
plt.ylim(0., 1.)
# plot kernel score
plt.subplot(132)
plt.scatter(*data.T, c=probs, alpha=.5)
# display predicted scores by the model as a contour plot
X, Y = np.meshgrid(np.linspace(0., 1.), np.linspace(0., 1.))
XX = np.array([X.ravel(), Y.ravel()]).T
Z = -model.score_samples(XX)
Z = Z.reshape(X.shape)
plt.contour(X, Y, Z)
plt.xlim(0,1)
plt.ylim(0,1)
# plot kernel score with threshold
plt.subplot(133)
plt.scatter(*data.T, c=probs>0.5, alpha=.5) # here you can adjust the threshold
plt.colorbar()
plt.xlim(0,1)
plt.ylim(0,1)
这是输出图:
我更改了高斯的中心以确保我的代码正常工作。右侧面板显示带有阈值的内核分数,可在您的情况下使用它来过滤掉高斯之外的噪声数据,但无法过滤高斯内部的噪声。
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