Django Prophet is a time series analysis tool based on Python. Combined with the Django framework, it can easily perform time series analysis and prediction. This article will introduce the best practices of Django Prophet and give specific code examples.
1. Installation and configuration
First, we need to install Django Prophet and its dependent libraries. It can be installed through the pip command:
pip install django-prophet forecaster
Next, add the following configuration in the settings.py file of the Django project:
INSTALLED_APPS = [ ... 'prophet', ... ] PROPHET = { 'MODEL_PATH': os.path.join(BASE_DIR, 'model'), # 模型路径 'FORECAST_PATH': os.path.join(BASE_DIR, 'forecast'), # 预测结果路径 }
In the above configuration, we specify the model and prediction results Storage path.
2. Data preparation and import
Before conducting time series analysis, we need to prepare the data and import it into the Django database. You can choose CSV format or import data through database query. The following is an example model class for storing time series data:
from django.db import models class TimeSeriesData(models.Model): date = models.DateField() value = models.FloatField()
Through Django's data migration function, the model class can be mapped to a database table:
python manage.py makemigrations python manage.py migrate
3. Time Series Analysis
Next, we can use Django Prophet for time series analysis. The following is a sample view function:
from django.shortcuts import render from prophet import Prophet def analyze(request): data = TimeSeriesData.objects.all().order_by('date') dates = [item.date for item in data] values = [item.value for item in data] df = pd.DataFrame({'ds': dates, 'y': values}) m = Prophet() m.fit(df) future = m.make_future_dataframe(periods=365) forecast = m.predict(future) forecast_data = forecast[['ds', 'yhat', 'yhat_lower', 'yhat_upper']] return render(request, 'analyze.html', {'forecast_data': forecast_data})
The above code first obtains the time series data from the database and converts it into a Pandas DataFrame object. Then, create a Prophet model and train it using the data.
Next, we use the make_future_dataframe function to generate the time range that needs to be predicted, and use the predict function to predict. The prediction results are stored in the forecast object.
Finally, we pass the prediction results to the template analyze.html for display.
4. Template display
In the template analyze.html, we can use the following code to display the prediction results:
{% for item in forecast_data %}Date: {{ item.ds }}
Predicted Value: {{ item.yhat }}
Lower Bound: {{ item.yhat_lower }}
Upper Bound: {{ item.yhat_upper }}
{% endfor %}
The above code uses a for loop to traverse the prediction results and display Date, predicted value, and upper and lower bounds.
Summary:
Through the above steps, we can implement time series analysis based on Django Prophet. This process includes installation and configuration, data preparation and import, time series analysis, and template presentation. By properly configuring parameters and models, we can obtain more accurate time series predictions.
It should be noted that the above example uses a simple linear model. For complex time series, the prediction accuracy can be improved by adjusting the parameters of the Prophet model and adding feature engineering.
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