关于支持向量机(SVM)算法应用——人脸识别python代码修改_python svm支持向量机行人检测-优快云博客

本文链接：https://blog.youkuaiyun.com/weixin_40769865/article/details/96712403

本文针对使用支持向量机(SVM)进行人脸识别的Python代码进行错误修正。原始代码存在导入错误，如'sklearn.cross_validation'已更改为'sklearn.model_selection'，'sklearn.grid_search'也进行了相应更新。同时，'RandomizedPCA'替换为'PCA'，并解决了'class_weight'参数问题。修正后的代码可在Python 3.7环境下运行。

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原始代码

关于相关库：
sklearn
matplotlib
numpy
scipy
推荐直接搭建Anoconda环境，直接conda install 。。。即可下载相应库。
搭建Anoconda环境连接： Anaconda完全入门指南

可以直接使用Anoconda自带解释器spyder

from __future__ import print_function    //for using Python3

from time import time
import logging
import matplotlib.pyplot as plt

from sklearn.cross_validation import train_test_split
from sklearn.datasets import fetch_lfw_people
from sklearn.grid_search import GridSearchCV
from sklearn.metrics import classification_report
from sklearn.metrics import confusion_matrix
from sklearn.decomposition import RandomizedPCA
from sklearn.svm import SVC


print(__doc__)

# Display progress logs on stdout
logging.basicConfig(level=logging.INFO, format='%(asctime)s %(message)s')


###############################################################################
# Download the data, if not already on disk and load it as numpy arrays

lfw_people = fetch_lfw_people(min_faces_per_person=70, resize=0.4)

# introspect the images arrays to find the shapes (for plotting)
n_samples, h, w = lfw_people.images.shape

# for machine learning we use the 2 data directly (as relative pixel
# positions info is ignored by this model)
X = lfw_people.data
n_features = X.shape[1]

# the label to predict is the id of the person
y = lfw_people.target
target_names = lfw_people.target_names
n_classes = target_names.shape[0]

print("Total dataset size:")
print("n_samples: %d" % n_samples)
print("n_features: %d" % n_features)
print("n_classes: %d" % n_classes)


###############################################################################
# Split into a training set and a test set using a stratified k fold

# split into a training and testing set
X_train, X_test, y_train, y_test = train_test_split(
    X, y, test_size=0.25)


###############################################################################
# Compute a PCA (eigenfaces) on the face dataset (treated as unlabeled
# dataset): unsupervised feature extraction / dimensionality reduction
n_components = 150

print("Extracting the top %d eigenfaces from %d faces"
      % (n_components, X_train.shape[0]))
t0 = time()
pca = RandomizedPCA(n_components=n_components, whiten=True).fit(X_train)
print("done in %0.3fs" % (time() - t0))

eigenfaces = pca.components_.reshape((n_components, h, w))

print("Projecting the input data on the eigenfaces orthonormal basis")
t0 = time()
X_train_pca = pca.transform(X_train)
X_test_pca = pca.transform(X_test)
print("done in %0.3fs" % (time() - t0))


###########################################