IT Management
Complete Machine Learning with Python
Overview:
Introduction:
This training program provides participants with essential knowledge and skills in machine learning using Python. It empowers them to understand and implement machine learning algorithms and techniques to solve real-world problems.
Program Objectives:
At the end of this program, participants will be able to:
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Understand the basics of machine learning and its applications.
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Utilize Python libraries for data analysis and machine learning.
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Implement various machine learning algorithms.
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Evaluate and improve the performance of machine learning models.
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Apply machine learning techniques to real-world datasets.
Targeted Audience:
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Data Scientists.
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Machine Learning Engineers.
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Data Analysts.
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Python Programmers interested in machine learning.
Program Outline:
Unit 1:
Introduction to Machine Learning and Python:
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Overview of machine learning concepts and types.
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Introduction to Python for machine learning.
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Setting up the Python environment (Anaconda, Jupyter Notebook).
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Exploring essential Python libraries: NumPy, Pandas, Matplotlib, and Seaborn.
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Understanding data preprocessing and cleaning techniques.
Unit 2:
Supervised Learning Algorithms:
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Introduction to supervised learning and its applications.
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Implementing linear regression and logistic regression.
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Understanding decision trees and random forests.
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Exploring support vector machines (SVM).
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Evaluating model performance with metrics (accuracy, precision, recall, F1 score).
Unit 3:
Unsupervised Learning Algorithms:
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Introduction to unsupervised learning and its applications.
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Implementing k-means clustering and hierarchical clustering.
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Understanding principal component analysis (PCA).
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Exploring anomaly detection techniques.
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Evaluating clustering performance and visualization techniques.
Unit 4:
Advanced Machine Learning Techniques:
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Introduction to ensemble methods (bagging, boosting).
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Implementing gradient boosting and XGBoost.
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Understanding neural networks and deep learning basics.
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Utilizing TensorFlow and Keras for deep learning models.
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Exploring natural language processing (NLP) with Python.
Unit 5:
Model Evaluation and Optimization:
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Understanding overfitting and underfitting.
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Implementing cross-validation techniques.
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Exploring hyperparameter tuning (Grid Search, Random Search).
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Using feature selection and engineering techniques.
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Applying machine learning models to real-world datasets and case studies.