Course list

This course begins by helping you reframe real-world problems in terms of supervised machine learning. Through understanding the “ingredients” of a machine learning problem, you will investigate how to implement, evaluate, and improve machine learning algorithms. Ultimately, you will implement the k-Nearest Neighbors (k-NN) algorithm to build a face recognition system. Tools like the NumPy Python library are introduced to assist in simplifying and improving Python code.
  • Jan 1, 2025
  • Jan 15, 2025
  • Jan 29, 2025
  • Feb 12, 2025
  • Feb 26, 2025
  • Mar 12, 2025
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  • May 21, 2025
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  • Sep 10, 2025
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  • Oct 8, 2025
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  • Nov 5, 2025
  • Nov 19, 2025
  • Dec 3, 2025
  • Dec 17, 2025
  • Dec 31, 2025
  • Jan 14, 2026
  • Jan 28, 2026
  • Feb 11, 2026
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  • Mar 11, 2026
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  • Apr 8, 2026
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  • May 6, 2026
  • May 20, 2026
  • Jun 3, 2026
  • Jun 17, 2026

In this course, you will use the Maximum Likelihood Estimate (MLE) to approximate distributions from data. Using the Bayes Optimal Classifier, you will learn how the assumptions you make will impact your estimations. You will then learn to apply the Naive Bayes Assumption to estimate probabilities for problems that contain a high number of dimensions. Ultimately, you will apply this understanding to implement the Naive Bayes Classifier in order to build a name classification system.

The following course is required to be completed before taking this course:

  • Problem-Solving with Machine Learning
  • Jan 1, 2025
  • Jan 15, 2025
  • Jan 29, 2025
  • Feb 12, 2025
  • Feb 26, 2025
  • Mar 12, 2025
  • Mar 26, 2025
  • Apr 9, 2025
  • Apr 23, 2025
  • May 7, 2025
  • May 21, 2025
  • Jun 4, 2025
  • Jun 18, 2025
  • Jul 2, 2025
  • Jul 16, 2025
  • Jul 30, 2025
  • Aug 13, 2025
  • Aug 27, 2025
  • Sep 10, 2025
  • Sep 24, 2025
  • Oct 8, 2025
  • Oct 22, 2025
  • Nov 5, 2025
  • Nov 19, 2025
  • Dec 3, 2025
  • Dec 17, 2025
  • Dec 31, 2025
  • Jan 14, 2026
  • Jan 28, 2026
  • Feb 11, 2026
  • Feb 25, 2026
  • Mar 11, 2026
  • Mar 25, 2026
  • Apr 8, 2026
  • Apr 22, 2026
  • May 6, 2026
  • May 20, 2026
  • Jun 3, 2026
  • Jun 17, 2026

In this course, you are introduced to and implement the Perceptron algorithm, a linear classifier that was developed at Cornell in 1957. Through the exploration of linear and logistic regression, you will learn to estimate probabilities that remain true to the problem settings. By using gradient descent, we minimize loss functions. Ultimately, you will apply these skills to build a email spam classifier.

The following courses are required to be completed before taking this course:

  • Problem-Solving with Machine Learning
  • Estimating Probability Distributions
  • Jan 1, 2025
  • Jan 15, 2025
  • Jan 29, 2025
  • Feb 12, 2025
  • Feb 26, 2025
  • Mar 12, 2025
  • Mar 26, 2025
  • Apr 9, 2025
  • Apr 23, 2025
  • May 7, 2025
  • May 21, 2025
  • Jun 4, 2025
  • Jun 18, 2025
  • Jul 2, 2025
  • Jul 16, 2025
  • Jul 30, 2025
  • Aug 13, 2025
  • Aug 27, 2025
  • Sep 10, 2025
  • Sep 24, 2025
  • Oct 8, 2025
  • Oct 22, 2025
  • Nov 5, 2025
  • Nov 19, 2025
  • Dec 3, 2025
  • Dec 17, 2025
  • Dec 31, 2025
  • Jan 14, 2026
  • Jan 28, 2026
  • Feb 11, 2026
  • Feb 25, 2026
  • Mar 11, 2026
  • Mar 25, 2026
  • Apr 8, 2026
  • Apr 22, 2026
  • May 6, 2026
  • May 20, 2026
  • Jun 3, 2026
  • Jun 17, 2026

In this course, you will be introduced to the classification and regression trees (CART) algorithm. By implementing CART, you will build decision trees for a supervised classification problem. Next, you will explore how the hyperparameters of an algorithm can be adjusted and what impact they have on the accuracy of a predictive model. Through this exploration, you will practice selecting an appropriate model for a problem and dataset. You will then load a live dataset, select a model, and train a classifier to make predictions on that data.

The following courses are required to be completed before taking this course:

  • Problem-Solving with Machine Learning
  • Estimating Probability Distributions
  • Learning with Linear Classifiers
  • Jan 1, 2025
  • Jan 15, 2025
  • Jan 29, 2025
  • Feb 12, 2025
  • Feb 26, 2025
  • Mar 12, 2025
  • Mar 26, 2025
  • Apr 9, 2025
  • Apr 23, 2025
  • May 7, 2025
  • May 21, 2025
  • Jun 4, 2025
  • Jun 18, 2025
  • Jul 2, 2025
  • Jul 16, 2025
  • Jul 30, 2025
  • Aug 13, 2025
  • Aug 27, 2025
  • Sep 10, 2025
  • Sep 24, 2025
  • Oct 8, 2025
  • Oct 22, 2025
  • Nov 5, 2025
  • Nov 19, 2025
  • Dec 3, 2025
  • Dec 17, 2025
  • Dec 31, 2025
  • Jan 14, 2026
  • Jan 28, 2026
  • Feb 11, 2026
  • Feb 25, 2026
  • Mar 11, 2026
  • Mar 25, 2026
  • Apr 8, 2026
  • Apr 22, 2026
  • May 6, 2026
  • May 20, 2026
  • Jun 3, 2026
  • Jun 17, 2026

In this course, you will investigate the underlying mechanics of a machine learning algorithm's prediction accuracy by exploring the bias variance trade-off. You will identify the causes of prediction error by recognizing high bias and variance while learning techniques to reduce the negative impacts these errors have on learning models. Working with ensemble methods, you will implement techniques that improve the results of your predictive models, creating more reliable and efficient algorithms.

These courses are required to be completed prior to starting this course:

  • Problem-Solving with Machine Learning
  • Estimating Probability Distributions
  • Learning with Linear Classifiers
  • Decision Trees and Model Selection
  • Jan 15, 2025
  • Jan 29, 2025
  • Feb 12, 2025
  • Feb 26, 2025
  • Mar 12, 2025
  • Mar 26, 2025
  • Apr 9, 2025
  • Apr 23, 2025
  • May 7, 2025
  • May 21, 2025
  • Jun 4, 2025
  • Jun 18, 2025
  • Jul 2, 2025
  • Jul 16, 2025
  • Jul 30, 2025
  • Aug 13, 2025
  • Aug 27, 2025
  • Sep 10, 2025
  • Sep 24, 2025
  • Oct 8, 2025
  • Oct 22, 2025
  • Nov 5, 2025
  • Nov 19, 2025
  • Dec 3, 2025
  • Dec 17, 2025
  • Dec 31, 2025
  • Jan 14, 2026
  • Jan 28, 2026
  • Feb 11, 2026
  • Feb 25, 2026
  • Mar 11, 2026
  • Mar 25, 2026
  • Apr 8, 2026
  • Apr 22, 2026
  • May 6, 2026
  • May 20, 2026
  • Jun 3, 2026
  • Jun 17, 2026

In this course, you will explore support-vector machines and use them to find a maximum margin classifier. You will then construct a mental model for how loss functions and regularizers are used to minimize risk and improve generalization of a learning model. Through the use of feature expansion, you will extend the capabilities of linear classifiers to find non-linear classification boundaries. Finally, you will employ kernel machines to train algorithms that can learn in infinite dimensional feature spaces.

These courses are required to be completed prior to starting this course:

  • Problem-Solving with Machine Learning
  • Estimating Probability Distributions
  • Learning with Linear Classifiers
  • Decision Trees and Model Selection
  • Debugging and Improving Machine Learning Models
  • Jan 1, 2025
  • Jan 15, 2025
  • Jan 29, 2025
  • Feb 12, 2025
  • Feb 26, 2025
  • Mar 12, 2025
  • Mar 26, 2025
  • Apr 9, 2025
  • Apr 23, 2025
  • May 7, 2025
  • May 21, 2025
  • Jun 4, 2025
  • Jun 18, 2025
  • Jul 2, 2025
  • Jul 16, 2025
  • Jul 30, 2025
  • Aug 13, 2025
  • Aug 27, 2025
  • Sep 10, 2025
  • Sep 24, 2025
  • Oct 8, 2025
  • Oct 22, 2025
  • Nov 5, 2025
  • Nov 19, 2025
  • Dec 3, 2025
  • Dec 17, 2025
  • Dec 31, 2025
  • Jan 14, 2026
  • Jan 28, 2026
  • Feb 11, 2026
  • Feb 25, 2026
  • Mar 11, 2026
  • Mar 25, 2026
  • Apr 8, 2026
  • Apr 22, 2026
  • May 6, 2026
  • May 20, 2026
  • Jun 3, 2026
  • Jun 17, 2026

In this course, you will investigate the fundamental components of machine learning that are used to build a neural network. You will then construct a neural network and train it on a simple data set to make predictions on new data. We then look at how a neural network can be adapted for image data by exploring convolutional networks. You will have the opportunity to explore a simple implementation of a convolutional neural network written in PyTorch, a deep learning platform. Finally, you will yet again adapt neural networks, this time for sequential data. Using a deep averaging network, you will implement a neural sequence model that analyzes product reviews to determine consumer sentiment.

These courses are required to be completed prior to starting this course:

  • Problem-Solving with Machine Learning
  • Estimating Probability Distributions
  • Learning with Linear Classifiers
  • Decision Trees and Model Selection
  • Debugging and Improving Machine Learning Models
  • Learning with Kernel Machines
  • Jan 15, 2025
  • Jan 29, 2025
  • Feb 12, 2025
  • Feb 26, 2025
  • Mar 12, 2025
  • Mar 26, 2025
  • Apr 9, 2025
  • Apr 23, 2025
  • May 7, 2025
  • May 21, 2025
  • Jun 4, 2025
  • Jun 18, 2025
  • Jul 2, 2025
  • Jul 16, 2025
  • Jul 30, 2025
  • Aug 13, 2025
  • Aug 27, 2025
  • Sep 10, 2025
  • Sep 24, 2025
  • Oct 8, 2025
  • Oct 22, 2025
  • Nov 5, 2025
  • Nov 19, 2025
  • Dec 3, 2025
  • Dec 17, 2025
  • Dec 31, 2025
  • Jan 14, 2026
  • Jan 28, 2026
  • Feb 11, 2026
  • Feb 25, 2026
  • Mar 11, 2026
  • Mar 25, 2026
  • Apr 8, 2026
  • Apr 22, 2026
  • May 6, 2026
  • May 20, 2026
  • Jun 3, 2026
  • Jun 17, 2026

With today's advancements in technology, the realm of generative AI has become more and more prominent. In this course, you will explore the foundation for creating transformer models to generate text and images. You will be guided through each process to generate text using transformers, generate images from images, and generate images from noise. You will be introduced to the building blocks that make up transformers as well as to options for fine-tuning your model to achieve better output results. Through activities and a hands-on project, you'll practice implementing your own generative models and gain the skills and understanding to support your work.

The following courses are required to be completed prior to starting this course:

  • Problem-Solving With Machine Learning
  • Estimating Probability Distributions
  • Learning With Linear Classifiers
  • Decision Trees and Model Selection
  • Debugging and Improving Machine Learning Models
  • Learning With Kernel Machines
  • Deep Learning and Neural Networks
  • Mar 12, 2025
  • Mar 26, 2025
  • Apr 9, 2025
  • Apr 23, 2025
  • May 7, 2025
  • May 21, 2025
  • Jun 4, 2025
  • Jun 18, 2025
  • Jul 2, 2025
  • Jul 16, 2025
  • Jul 30, 2025
  • Aug 13, 2025
  • Aug 27, 2025
  • Sep 10, 2025
  • Sep 24, 2025
  • Oct 8, 2025
  • Oct 22, 2025
  • Nov 5, 2025
  • Nov 19, 2025
  • Dec 3, 2025
  • Dec 17, 2025
  • Dec 31, 2025
  • Jan 14, 2026
  • Jan 28, 2026
  • Feb 11, 2026
  • Feb 25, 2026
  • Mar 11, 2026
  • Mar 25, 2026
  • Apr 8, 2026
  • Apr 22, 2026
  • May 6, 2026
  • May 20, 2026
  • Jun 3, 2026
  • Jun 17, 2026

To perform basic computations in the Machine Learning certificate program, you need the ability to solve elementary linear algebra problems in two dimensions. In this course, you will execute mathematical computations on vectors and measure the distance from a vector to a line. This course will provide you with the theory and activities to start building the linear algebra foundation needed to be successful in your Machine Learning courses.

This optional self-paced course supports the required linear algebra in the Machine Learning certificate. If you are already comfortable with the computations from the pretest, we recommend that you take the final assessment to confirm your readiness.

This Machine Learning certificate program requires you to think and solve problems in multiple dimensions. In this course, you will learn to solve linear algebra problems in three or more dimensions and perform computations with matrices.You will perform computations that focus on solving problems in high dimension; that is, multiple dimensions. This course will provide you with the theory and activities to solidify the linear algebra foundation needed to be successful in your Machine Learning courses.

This optional self-paced course supports the required linear algebra in the Machine Learning certificate. If you are already comfortable with the computations from the pretest, we recommend that you take the final assessment to confirm your readiness.

How It Works

Completing a program from eCornell really has allowed me to think outside the box at work. It gave me the confidence I needed to take a seat at that table and say I am ready.
‐ Kasey M.
Kasey M.

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