SKLEARN Gradient Boosting Classifier with Grid Search Cross Validation
Gradient Boosting Classifier is a machine learning technique used to classify items into different categories. It is an ensemble method that combines the predictions of multiple weak models, such as decision trees, to make a final prediction. The technique uses an iterative process where each iteration improves the model by focusing on the mistakes made in the previous iteration.
Grid Search Cross Validation is a method used to find the best set of parameters for the Gradient Boosting Classifier. It works by testing different combinations of parameters and evaluating their performance. The best combination of parameters is then chosen for the final model.
To classify IRIS flowers or any other classification problem, we first need to gather a dataset of examples and their characteristics. These characteristics are then used as inputs for the Gradient Boosting Classifier.
The Gradient Boosting Classifier is trained using the dataset, and the best set of parameters is found using Grid Search Cross Validation. After the model is trained, it can be used to classify new examples based on their characteristics.
In summary, the Gradient Boosting Classifier with Grid Search Cross Validation is a powerful machine learning technique that combines the predictions of multiple weak models to make a final prediction, and fine-tune the best set of parameters using Grid Search Cross Validation. It is used in various classification problems, including IRIS flower classification.
In this Applied Machine Learning & Data Science Recipe (Jupyter Notebook), the reader will find the practical use of applied machine learning and data science in Python programming: SKLEARN Gradient Boosting Classifier with Grid Search Cross Validation.
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