1、交叉验证(Cross Validation)
分析:
2、超参数搜索 - 网格搜索(Grid Search)
3、模型选择与调优API
ex_1
from sklearn.datasets import load_iris
from sklearn.model_selection import train_test_split
from sklearn.preprocessing import StandardScaler
from sklearn.neighbors import KNeighborsClassifier
from sklearn.model_selection import GridSearchCV
def knn_iris():
'''
用KNN算法对鸢尾花进行分类
:return:
'''
# 1)获取数据
iris = load_iris()
# 2)划分数据集
x_train, x_test, y_train, y_test = train_test_split(iris.data, iris.target, random_state=6)
# 3)特征工程:标准化
transfer = StandardScaler()
x_train = transfer.fit_transform(x_train)
x_test = transfer.transform(x_test)
# 4)KNN短发预估器
estimator = KNeighborsClassifier(n_neighbors=3)
estimator.fit(x_train, y_train)
# 有了模型
# 5)模型评估
# 方法1:直接对比真实值和预测值
y_predict = estimator.predict(x_test)
print("y_predict: \n", y_predict)
print("直接对比真实值和预测值: \n", y_test == y_predict)
# 方法2:计算准确率
score = estimator.score(x_test, y_test)
print("准确率:\n", score)
return None
def knn_iris_gscv():
"""
用KNN算法对鸢尾花进行分类,添加网格搜索和交叉验证
:return:
"""
# 1)获取数据
iris = load_iris()
# 2)划分数据集
x_train, x_test, y_train, y_test = train_test_split(iris.data, iris.target, random_state=22)
# 3)特征工程:标准化
transfer = StandardScaler()
x_train = transfer.fit_transform(x_train)
x_test = transfer.transform(x_test)
# 4)KNN算法预估器
estimator = KNeighborsClassifier()
# 加入网格搜索与交叉验证
# 参数准备
param_dict = {"n_neighbors": [1, 3, 5, 7, 9, 11]}
estimator = GridSearchCV(estimator, param_grid=param_dict, cv=10)
estimator.fit(x_train, y_train)
# 5)模型评估
# 方法1:直接比对真实值和预测值
y_predict = estimator.predict(x_test)
print("y_predict:\n", y_predict)
print("直接比对真实值和预测值:\n", y_test == y_predict)
# 方法2:计算准确率
score = estimator.score(x_test, y_test)
print("准确率为:\n", score)
# 最佳参数:best_params_
print("最佳参数:\n", estimator.best_params_)
# 最佳结果:best_score_
print("最佳结果:\n", estimator.best_score_)
# 最佳估计器:best_estimator_
print("最佳估计器:\n", estimator.best_estimator_)
# 交叉验证结果:cv_results_
print("交叉验证结果:\n", estimator.cv_results_)
return None
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