标签:data ase loss plot 建立 随机 poc batch ada
1.手写数字数据集
# 1.手写数字数据集 from sklearn.datasets import load_digits import numpy as np digits = load_digits()
2.图片数据预处理
# 2.图片数据预处理 # SKlearn 数据预处理:归一化 from sklearn.preprocessing import MinMaxScaler X_data = digits.data.astype(np.float32) scaler = MinMaxScaler() X_data = scaler.fit_transform(X_data) print("归一化后",X_data) # 转化为图片的格式(batch,height,width,channels) X=X_data.reshape(-1,8,8,1)
# OneHotEncoder独热编码 from sklearn.preprocessing import OneHotEncoder # y = digits.target.reshape(-1,1) y = digits.target.astype(np.float32).reshape(-1,1) #将Y_data变为一列 Y = OneHotEncoder().fit_transform(y).todense() #张量结构todense print("独热编码:",Y) # 切分数据集 from sklearn.model_selection import train_test_split X_train,X_test,y_train,y_test = train_test_split(X,Y,test_size=0.2,random_state=0,stratify=Y) print(X_train,X_test,y_train,y_test) print("X_data.shape:",X_data.shape) print("X.shape",X.shape)
3.设计卷积神经网络结构
模型结构图如下:
from tensorflow.keras.models import Sequential from tensorflow.keras.layers import Dense,Dropout,Conv2D,MaxPool2D,Flatten #3、建立模型 model = Sequential() ks = (3, 3) # 卷积核的大小 input_shape = X_train.shape[1:] # 一层卷积,padding=‘same‘,tensorflow会对输入自动补0 model.add(Conv2D(filters=16, kernel_size=ks, padding=‘same‘, input_shape=input_shape, activation=‘relu‘)) # 池化层1 model.add(MaxPool2D(pool_size=(2, 2))) # 防止过拟合,随机丢掉连接 model.add(Dropout(0.25)) # 二层卷积 model.add(Conv2D(filters=32, kernel_size=ks, padding=‘same‘, activation=‘relu‘)) # 池化层2 model.add(MaxPool2D(pool_size=(2, 2))) model.add(Dropout(0.25)) # 三层卷积 model.add(Conv2D(filters=64, kernel_size=ks, padding=‘same‘, activation=‘relu‘)) # 四层卷积 model.add(Conv2D(filters=128, kernel_size=ks, padding=‘same‘, activation=‘relu‘)) # 池化层3 model.add(MaxPool2D(pool_size=(2, 2))) model.add(Dropout(0.25)) # 平坦层 model.add(Flatten()) # 全连接层 model.add(Dense(128, activation=‘relu‘)) model.add(Dropout(0.25)) # 激活函数softmax model.add(Dense(10, activation=‘softmax‘)) print(model.summary())
4.模型训练
import matplotlib.pyplot as plt # 画Train History图 def show_train_history(train_history, train, validation): plt.plot(train_history.history[train]) plt.plot(train_history.history[validation]) plt.title(‘Train History‘) plt.ylabel(‘train‘) plt.xlabel(‘epoch‘) plt.legend([‘train‘, ‘validation‘], loc=‘upper left‘) plt.show() # 4、模型训练 model.compile(loss=‘categorical_crossentropy‘, optimizer=‘adam‘, metrics=[‘accuracy‘]) train_history = model.fit(x=X_train, y=y_train, validation_split=0.2, batch_size=300, epochs=10, verbose=2) # 准确率 show_train_history(train_history, ‘accuracy‘, ‘val_accuracy‘) # 损失率 show_train_history(train_history, ‘loss‘, ‘val_loss‘)
5.模型评价
# 5、模型评价 import pandas as pd import seaborn as sns # model.evaluate() score = model.evaluate(X_test, y_test) print(‘score:‘, score) # 预测值 y_pred = model.predict_classes(X_test) print(‘y_pred:‘, y_pred[:10]) # 交叉表与交叉矩阵 y_test1 = np.argmax(y_test, axis=1).reshape(-1) y_true = np.array(y_test1)[0] # 交叉表查看预测数据与原数据对比 # pandas.crosstab pd.crosstab(y_true, y_pred, rownames=[‘true‘], colnames=[‘predict‘]) # 交叉矩阵 # seaborn.heatmap y_test1 = y_test1.tolist()[0] a = pd.crosstab(np.array(y_test1), y_pred, rownames=[‘Lables‘], colnames=[‘Predict‘]) # 转换成属dataframe df = pd.DataFrame(a) sns.heatmap(df, annot=True, cmap="Reds", linewidths=0.2, linecolor=‘G‘) plt.show()
标签:data ase loss plot 建立 随机 poc batch ada
原文地址:https://www.cnblogs.com/a131452/p/13080125.html
