L1.5 Necessary Machine Learning Notation and Jargon
Sebastian's books: https://sebastianraschka.com/books/
Machine learning is a broad field that is not only popular among people who work on machine learning but also work *with* machine learning. That is, machine learning is used by many people in various contexts and disciplines. To communicate effectively, we have to adopt some of the jargon, notation, and conventions in this field. This video introduces some of the main aspects around the data representation and notation.
Slides: https://sebastianraschka.com/pdf/lecture-notes/stat453ss21/L01-intro_slides.pdf
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This video is part of my Introduction of Deep Learning course.
Next video: https://youtu.be/R16VmI2ZhR0
The complete playlist: https://www.youtube.com/playlist?list=PLTKMiZHVd_2KJtIXOW0zFhFfBaJJilH51
A handy overview page with links to the materials: https://sebastianraschka.com/blog/2021/dl-course.html
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2
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3
![Intro to Deep Learning -- L10 Input and Weight Normalization Part 1/2 [Stat453, SS20]](https://i.ytimg.com/vi/QQD9Y2FiotQ/mqdefault.jpg)
4
![Intro to Deep Learning -- L10 Input and Weight Normalization Part 2/2 [Stat453, SS20]](https://i.ytimg.com/vi/H_hrdUUrjho/mqdefault.jpg)
5
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6
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7
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![Intro to Deep Learning -- L13 Intro to Convolutional Neural Networks (Part 2) 2/2 [Stat453, SS20]](https://i.ytimg.com/vi/ji05GxulVuY/mqdefault.jpg)
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![Intro to Deep Learning -- L14 Intro to Recurrent Neural Networks [Stat453, SS20]](https://i.ytimg.com/vi/tFWex9e-sg8/mqdefault.jpg)
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![Intro to Deep Learning -- Student Presentations, Day 1 [Stat453, SS20]](https://i.ytimg.com/vi/e_I0q3mmfw4/mqdefault.jpg)
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Intro to Deep Learning -- L06.5 Cloud Computing [Stat453, SS20]
Sebastian Raschka
Intro to Deep Learning -- L09 Regularization [Stat453, SS20]
Sebastian Raschka
Intro to Deep Learning -- L10 Input and Weight Normalization Part 1/2 [Stat453, SS20]
Sebastian Raschka
Intro to Deep Learning -- L10 Input and Weight Normalization Part 2/2 [Stat453, SS20]
Sebastian Raschka
Intro to Deep Learning -- L11 Common Optimization Algorithms [Stat453, SS20]
Sebastian Raschka
Intro to Deep Learning -- L12 Intro to Convolutional Neural Networks (Part 1) [Stat453, SS20]
Sebastian Raschka
Intro to Deep Learning -- L13 Intro to Convolutional Neural Networks (Part 2) 1/2 [Stat453, SS20]
Sebastian Raschka
Intro to Deep Learning -- L13 Intro to Convolutional Neural Networks (Part 2) 2/2 [Stat453, SS20]
Sebastian Raschka
Intro to Deep Learning -- L14 Intro to Recurrent Neural Networks [Stat453, SS20]
Sebastian Raschka
Intro to Deep Learning -- L15 Autoencoders [Stat453, SS20]
Sebastian Raschka
Intro to Deep Learning -- L16 Generative Adversarial Networks [Stat453, SS20]
Sebastian Raschka
Intro to Deep Learning -- Student Presentations, Day 1 [Stat453, SS20]
Sebastian Raschka
1.2 What is Machine Learning (L01: What is Machine Learning)
Sebastian Raschka
1.3 Categories of Machine Learning (L01: What is Machine Learning)
Sebastian Raschka
1.4 Notation (L01: What is Machine Learning)
Sebastian Raschka
1.1 Course overview (L01: What is Machine Learning)
Sebastian Raschka
1.5 ML application (L01: What is Machine Learning)
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1.6 ML motivation (L01: What is Machine Learning)
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2.1 Introduction to NN (L02: Nearest Neighbor Methods)
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2.2 Nearest neighbor decision boundary (L02: Nearest Neighbor Methods)
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2.3 K-nearest neighbors (L02: Nearest Neighbor Methods)
Sebastian Raschka
2.4 Big O of K-nearest neighbors (L02: Nearest Neighbor Methods)
Sebastian Raschka
2.5 Improving k-nearest neighbors (L02: Nearest Neighbor Methods)
Sebastian Raschka
2.6 K-nearest neighbors in Python (L02: Nearest Neighbor Methods)
Sebastian Raschka
3.1 (Optional) Python overview
Sebastian Raschka
3.2 (Optional) Python setup
Sebastian Raschka
3.3 (Optional) Running Python code
Sebastian Raschka
4.1 Intro to NumPy (L04: Scientific Computing in Python)
Sebastian Raschka
4.2 NumPy Array Construction and Indexing (L04: Scientific Computing in Python)
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4.4 NumPy Broadcasting (L04: Scientific Computing in Python)
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4.5 NumPy Advanced Indexing -- Memory Views and Copies (L04: Scientific Computing in Python)
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4.3 NumPy Array Math and Universal Functions (L04: Scientific Computing in Python)
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4.7 Reshaping NumPy Arrays (L04: Scientific Computing in Python)
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4.6 NumPy Random Number Generators (L04: Scientific Computing in Python)
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4.8 NumPy Comparison Operators and Masks (L04: Scientific Computing in Python)
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4.9 NumPy Linear Algebra Basics (L04: Scientific Computing in Python)
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4.10 Matplotlib (L04: Scientific Computing in Python)
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5.1 Reading a Dataset from a Tabular Text File (L05: Machine Learning with Scikit-Learn)
Sebastian Raschka
5.2 Basic data handling (L05: Machine Learning with Scikit-Learn)
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5.3 Object Oriented Programming & Python Classes (L05: Machine Learning with Scikit-Learn)
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5.4 Intro to Scikit-learn (L05: Machine Learning with Scikit-Learn)
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5.5 Scikit-learn Transformer API (L05: Machine Learning with Scikit-Learn)
Sebastian Raschka
5.6 Scikit-learn Pipelines (L05: Machine Learning with Scikit-Learn)
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6.1 Intro to Decision Trees (L06: Decision Trees)
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6.2 Recursive algorithms & Big-O (L06: Decision Trees)
Sebastian Raschka
6.3 Types of decision trees (L06: Decision Trees)
Sebastian Raschka
6.5 Gini & Entropy versus misclassification error (L06: Decision Trees)
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6.6 Improvements & dealing with overfitting (L06: Decision Trees)
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6.7 Code Example Implementing Decision Trees in Scikit-Learn (L06: Decision Trees)
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7.1 Intro to ensemble methods (L07: Ensemble Methods)
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7.2 Majority Voting (L07: Ensemble Methods)
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7.3 Bagging (L07: Ensemble Methods)
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7.4 Boosting and AdaBoost (L07: Ensemble Methods)
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7.5 Gradient Boosting (L07: Ensemble Methods)
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7.6 Random Forests (L07: Ensemble Methods)
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7.7 Stacking (L07: Ensemble Methods)
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8.1 Intro to overfitting and underfitting (L08: Model Evaluation Part 1)
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8.2 Intuition behind bias and variance (L08: Model Evaluation Part 1)
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8.3 Bias-Variance Decomposition of the Squared Error (L08: Model Evaluation Part 1)
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8.4 Bias and Variance vs Overfitting and Underfitting (L08: Model Evaluation Part 1)
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