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TrafficClassificationMachineLearning.py 4.87 KB
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import tensorflow.compat.v1 as tf
import numpy as np
import os
from sklearn import metrics
from tensorflow import keras
from sklearn.ensemble import RandomForestClassifier
from sklearn.metrics import confusion_matrix, roc_curve
import matplotlib.pyplot as plt
from sklearn.model_selection import train_test_split
import time
import pandas as pd
# 标签
list_y = ['WWW','MAIL','FTP-CONTROL','FTP-PASV','ATTACK','P2P',
'DATABASE','FTP-DATA','MULTIMEDIA','SERVICES','INTERACTIVE','GAMES']
# 数据预处理
def data_preprocess(filename):
X, Y = [], []
dir = os.getcwd()
for f in filename:
print(f)
with open(os.path.join(dir, f), 'r') as file:
for n, i in enumerate(file.readlines()[253:]):
# 将 Y 和 N 分别转为 1 和 0
i = i.replace('Y','1')
i = i.replace('N', '0')
spl = i.split(',')
if spl.count('?')>8:
continue
# 去除字符'\n'
i = i.replace('\n', '')
fz = [float(f) for f in i.split(',')[:-1] if f != '?']
meana = sum(fz) / len(fz)
i = i.replace('?', str(0))
# 均值填充,加高斯白噪声
# 方便作为深度学习模型的输入
x = [float(j) for j in i.split(',')[:-1]] +[meana] * 8 + np.random.normal(0,1,256)
# 修正标签字符
y = i.split(',')[-1].replace('FTP-CO0TROL','FTP-CONTROL')
y = y.replace('I0TERACTIVE','INTERACTIVE' )
y = list_y.index(y)
X.append(x)
Y.append(y)
file.close()
return X, Y
# 数据标准化
# 数据预处理,返回处理好的数据和标签
total_x,total_y = data_preprocess(['entry01.weka.allclass.arff','entry02.weka.allclass.arff',
'entry03.weka.allclass.arff','entry04.weka.allclass.arff',
'entry05.weka.allclass.arff','entry09.weka.allclass.arff',
'entry10.weka.allclass.arff','entry07.weka.allclass.arff',
'entry08.weka.allclass.arff','entry06.weka.allclass.arff'])
# 使用 train_test_split 对训练集和测试集按照 1:3 进行划分
train_x,test_x,train_y,test_y = train_test_split(total_x,total_y,test_size=0.25, random_state=0)
# 使用 convert_to_tensor 将数据转为tensor类型
train_x = tf.convert_to_tensor(train_x, dtype=tf.float64)
train_y= tf.convert_to_tensor(train_y,dtype=tf.int64)
test_x = tf.convert_to_tensor(test_x, dtype=tf.float64)
test_y = tf.convert_to_tensor(test_y,dtype= tf.int64)
# 使用 tf.keras.utils.normalize 将训练集和测试集样本规范化处理
train_x = tf.keras.utils.normalize(train_x, axis=1)
test_x = tf.keras.utils.normalize(test_x, axis=1)
def plot_confusion_matrix(title, pred_y):
cm = confusion_matrix(test_y, pred_y)
labels_name = list_y
cm = cm.astype('float') / cm.sum(axis=1)[:, np.newaxis] # 归一化
plt.imshow(cm, interpolation='nearest') # 在特定的窗口上显示图像
plt.title(title) # 图像标题
plt.colorbar()
num_local = np.array(range(len(labels_name)))
plt.xticks(num_local, labels_name, rotation=90) # 将标签印在x轴坐标上
plt.yticks(num_local, labels_name) # 将标签印在y轴坐标上
plt.ylabel('True')
plt.xlabel('Predicted')
plt.show()
# 随机森林模型
def RandomForest(trainData, trainLabel, testData, testLabel):
t1 = time.time()
model = RandomForestClassifier(random_state=0)
model.fit(trainData, trainLabel)
predicted = model.predict(testData)
score = metrics.accuracy_score(testLabel, predicted)
t2 = time.time()
print("time: ", t2-t1)
print("Accuracy: ",score)
plot_confusion_matrix("RandomForest Confusion Matrix", predicted)
print('The Accuracy of RF Classifier is:', model.score(testData,testLabel))
return model
# 所有参数均使用默认值
# 寻找特征重要性
rf1 = RandomForest(train_x, train_y, test_x, test_y)
# 首先使用原始数据进行机器学习模型rf1的训练
# 然后进行特征缩减
df = pd.DataFrame(rf1.feature_importances_, columns=['importance']) # 将特征重要性转成DataFrame数据
sorted_df = df.sort_values(by='importance', axis=0, ascending=False) # 对特征重要性作降序排列
index = sorted_df[:20].index # 取出重要性高的前20个特征值的索引
train_x_reduced = tf.gather(train_x, index, axis=1) # 重要性高的20个特征组成的新训练集样本
test_x_reduced = tf.gather(test_x, index, axis=1) # 重要性高的20个特征组成的新训练集样本
# 使用特征缩减完的数据训练第二个机器学习模型 rf2
rf2 = RandomForest(train_x_reduced, train_y, test_x_reduced, test_y)
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