Mastery in Advanced Machine Learning & Applied AI™

About Mastery in Advanced Machine Learning & Applied AI™

This comprehensive program is designed to transform learners into experts in advanced machine learning and applied AI, covering both supervised and unsupervised learning techniques. The course focuses on the practical application of cutting-edge methods and algorithms, enabling learners to tackle complex real-world problems across various domains.

Course Outline

1. Introduction to Machine Learning

Understanding the basics of machine learning and its types: supervised, unsupervised, and reinforcement learning.

2. Machine Learning - Reinforcement Learning

Dive deep into reinforcement learning, covering key concepts such as agents, environments, and rewards.

3. Introduction to Supervised Learning

Learn the principles of supervised learning, including classification and regression tasks.

4. Machine Learning Model Training and Evaluation

Explore how to train machine learning models and evaluate their performance using metrics like accuracy, precision, recall, and F1 score.

5. Machine Learning Linear Regression

Understand the concept of linear regression and its application in predicting continuous values.

6. Machine Learning - Evaluating Model Fit

Techniques for assessing how well a model fits the data, including error metrics and residual analysis.

7. Application of Machine Learning - Supervised Learning

Hands-on application of supervised learning techniques to real-world problems.

8. Introduction to Multiple Linear Regression

Explore multiple linear regression and its application when dealing with multiple predictor variables.

9. Multiple Linear Regression - Evaluating Model Performance

Learn how to assess the performance of multiple linear regression models using metrics like R² and Adjusted R².

10. Machine Learning Application - Multiple Linear Regression

Practical exercises applying multiple linear regression to complex datasets.

11. Machine Learning Logistic Regression

Study logistic regression for binary classification tasks.

12. Machine Learning Feature Engineering - Logistic Regression

Techniques to optimize feature selection and transformation for better model performance in logistic regression.

13. Machine Learning Application - Logistic Regression

Practical application of logistic regression to classify data based on binary outcomes.

14. Machine Learning Decision Trees

Learn the fundamentals of decision trees and how they can be used for both classification and regression tasks.

15. Machine Learning - Evaluating Decision Trees Performance

Assessing decision trees' performance using criteria such as Gini index and Information Gain.

16. Machine Learning Application - Decision Trees

Apply decision tree algorithms to real-world datasets for classification tasks.

17. Machine Learning Random Forests

Understand ensemble learning through random forests and their advantages over single decision trees.

18. Master Machine Learning Hyperparameter Tuning

Learn how to fine-tune machine learning models for optimal performance using techniques such as grid search and random search.

19. Machine Learning Decision Trees Random Forest

Apply and compare decision trees and random forests to real-world problems.

20. Machine Learning - Support Vector Machines (SVM)

Master the theory and application of SVM for classification tasks, including the role of hyperplanes and support vectors.

21. Machine Learning - Kernel Functions in Support Vector Machines (SVM)

Understand the use of kernel functions to transform non-linear data into a higher-dimensional space for better classification.

22. Machine Learning Application - Support Vector Machines (SVM)

Practical applications of SVMs in classification tasks.

23. Machine Learning K-Nearest Neighbor (KNN) Algorithm

Study the KNN algorithm, a simple yet powerful method for classification and regression tasks.

24. Machine Learning Application - KNN Algorithm

Implement KNN for real-world data analysis.

25. Machine Learning Gradient Boosting Algorithms

Master advanced ensemble methods like gradient boosting, which combine weak models to create a strong model.

26. Master Hyperparameter Tuning in Machine Learning

Learn advanced techniques for optimizing model parameters to improve predictive performance.

27. Machine Learning Application of Gradient Boosting

Hands-on experience applying gradient boosting algorithms to complex datasets.

28. Machine Learning Model Evaluation Metrics

Study the various evaluation metrics for different types of machine learning models, such as precision, recall, F1 score, and confusion matrix.

29. Machine Learning ROC Curve and AUC Explained

Learn how to use the ROC curve and AUC to assess the performance of classification models.

30. Unsupervised Learning Explained | Clustering & Dimensionality Reduction

An introduction to unsupervised learning techniques such as clustering and dimensionality reduction.

31. Unsupervised Learning Explained - Anomaly Detection

Study anomaly detection techniques to identify outliers and abnormal patterns in data.

32. Mastering K-Means Clustering in Unsupervised Learning

Understand the K-Means algorithm and its application in clustering data.

33. Iterating K-Means Clustering Algorithm in Unsupervised Learning

Learn how to refine and optimize K-Means clustering for better results.

34. Application of K-Means Clustering Algorithm in Unsupervised Learning

Hands-on experience applying K-Means clustering to real-world problems.

35. Mastering Hierarchical Clustering in Unsupervised Learning

Understand hierarchical clustering techniques and their applications in unsupervised learning.

36. Unsupervised Learning Dendrogram Visualization

Visualize hierarchical clustering results using dendrograms to better understand data structures.

37. Application Hierarchical Clustering Explained - Master Unsupervised Learning

Apply hierarchical clustering to solve practical unsupervised learning tasks.

38. Advanced Clustering Techniques Unsupervised Learning with DBSCAN

Study DBSCAN, an advanced clustering algorithm that handles noise and non-spherical clusters.

39. Advanced Clustering Techniques - Unsupervised Learning with DBSCAN Advantages

Learn the advantages of DBSCAN over traditional clustering techniques like K-Means.

40. Introduction to Principal Component Analysis (PCA)

Understand PCA, a dimensionality reduction technique that simplifies high-dimensional data.

41. Selecting Principal Component Analysis (PCA)

Learn how to select the most important principal components to reduce data dimensionality effectively.

42. Application of Principal Components in PCA

Hands-on application of PCA to reduce dimensionality and improve model performance.

43. Unsupervised Learning with Linear Discriminant Analysis (LDA)

Learn LDA, a dimensionality reduction technique commonly used in classification tasks.

44. PCA vs LDA | Machine Learning Dimensionality Reduction

Compare PCA and LDA to understand their differences and appropriate use cases.

45. Application of LDA | Machine Learning Dimensionality Reduction

Apply LDA for dimensionality reduction in supervised learning tasks.

46. Unsupervised Learning with t-SNE

Study t-SNE (t-Distributed Stochastic Neighbor Embedding) for nonlinear dimensionality reduction.

47. Unsupervised Learning - How t-SNE Works - Mastering Dimensionality Reduction

Understand how t-SNE works and how it can be applied to visualize high-dimensional data.

48. Application of t-SNE - Mastering Dimensionality Reduction

Apply t-SNE to explore data patterns and visualize complex datasets in lower dimensions.

49. Unsupervised Learning Model Evaluation Metrics - A Complete Guide

Learn about evaluation metrics used to assess the performance of unsupervised learning models.

50. Dimensionality Reduction Evaluation Metrics

Study the metrics used to evaluate the effectiveness of dimensionality reduction techniques.

51. Unsupervised Learning Hyperparameter

Explore hyperparameter tuning in unsupervised learning to optimize model performance.

52. Unsupervised Learning with Bayesian Optimization - A Complete Guide

Learn Bayesian Optimization and its applications in improving the performance of unsupervised learning algorithms.

53. Introduction to Association Rule

Understand association rule mining and its application in market basket analysis.

54. Association Rule Mining - Confidence & Support Explained

Dive into confidence and support metrics used to evaluate association rules.

55. Apriori Algorithm Association Rule Mining & Market Basket Analysis

Study the Apriori algorithm and its application to market basket analysis for uncovering product relationships.

56. Apriori Algorithm Step-by-Step Explained

A detailed explanation of the Apriori algorithm and how to apply it to real-world data.

This course equips students with the tools and knowledge to excel in machine learning, from foundational concepts to advanced applications, making it ideal for those looking to master the field of AI and machine learning.