Explanation: This is a machine learning practical project (with data + code + documentation + video explanation). If you need data + code + documentation + video explanation, you can go directly to the end of the article to get it.
1. Project background
Genetic Algorithm (GA) was first proposed by John Holland in the United States in the 1970s. This algorithm is designed and proposed according to the evolution law of organisms in nature. It is a calculation model of the biological evolution process that simulates the natural selection and genetic mechanism of Darwin's biological evolution theory, and it is a method to search for the optimal solution by simulating the natural evolution process. The algorithm converts the solving process of the problem into a process similar to the crossover and mutation of chromosome genes in biological evolution by means of mathematics and computer simulation operations. When solving more complex combinatorial optimization problems, compared with some conventional optimization algorithms, usually better optimization results can be obtained faster. Genetic algorithm has been widely used in combinatorial optimization, machine learning, signal processing, adaptive control and artificial life and other fields.
This project optimizes the support vector machine regression model through GA genetic algorithm.
2. Data Acquisition
The modeling data for this time comes from the Internet (compiled by the author of this project), and the statistics of the data items are as follows:
The data details are as follows (partial display):
3. Data preprocessing
3.1 View data with Pandas tool
Use the head() method of the Pandas tool to view the first five rows of data:
key code:
3.2 Data missing view
Use the info() method of the Pandas tool to view data information:
As can be seen from the above figure, there are a total of 9 variables, no missing values in the data, and a total of 1000 data.
key code:
3.3 Data descriptive statistics
Use the describe() method of the Pandas tool to view the mean, standard deviation, minimum, quantile, and maximum of the data.
The key code is as follows:
4. Exploratory Data Analysis
4.1 Histogram of y variables
Use the hist() method of the Matplotlib tool to draw a histogram:
As can be seen from the figure above, the y variable is mainly concentrated between -400 and 400.
4.2 Correlation analysis
As can be seen from the figure above, the larger the value, the stronger the correlation. A positive value is a positive correlation, and a negative value is a negative correlation.
5. Feature engineering
5.1 Establish feature data and label data
The key code is as follows:
5.2 Dataset splitting
Use the train_test_split() method to divide according to 80% training set and 20% test set. The key code is as follows:
6. Construct GA genetic algorithm to optimize support vector machine regression model
The GA genetic algorithm is mainly used to optimize the support vector machine regression algorithm for target regression.
6.1 GA genetic algorithm to find the optimal parameter value
Optimal parameters:
6.2 Optimal parameter value construction model
7. Model Evaluation
7.1 Evaluation indicators and results
The evaluation indicators mainly include explainable variance value, mean absolute error, mean square error, R square value and so on.
It can be seen from the above table that R square 1.0 is a good model.
The key code is as follows:
7.2 Comparison chart of actual value and predicted value
From the above figure, it can be seen that the fluctuations of the actual value and the predicted value are basically the same, and the model fitting effect is good.
8. Conclusion and Outlook
To sum up, this paper uses the GA genetic algorithm to find the optimal parameter value of the support vector machine algorithm to construct the regression model, and finally proves that the model we proposed works well. This model can be used for forecasting of everyday products.
# 获取最小适应度
def get_fitness(x, y, X_train, y_train, X_test, y_test):
x = np.min(x)
y = np.min(y)
if int(abs(x)) > 0: # 判断取值
C = int(abs(x) / 100) + 1 # 赋值
else:
C = int(abs(x) + 1) # 赋值
# ******************************************************************************
# 本次机器学习项目实战所需的资料,项目资源如下:
# 项目说明:
# 链接:https://pan.baidu.com/s/1c6mQ_1YaDINFEttQymp2UQ
# 提取码:thgk
# ******************************************************************************
# y变量分布直方图
fig = plt.figure(figsize=(8, 5)) # 设置画布大小
plt.rcParams['font.sans-serif'] = 'SimHei' # 设置中文显示
plt.rcParams['axes.unicode_minus'] = False # 解决保存图像是负号'-'显示为方块的问题
data_tmp = df['y'] # 过滤出y变量的样本
# 绘制直方图 bins:控制直方图中的区间个数 auto为自动填充个数 color:指定柱子的填充色
plt.hist(data_tmp, bins='auto', color='g')For more project practice, see the list of machine learning project practice collections:
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