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An Introduction to Supervised Machine Learning and Pattern Classification: The Big Picture

Sebastian Raschka
Sebastian Raschka

The document provides an introduction to supervised machine learning and pattern classification. It begins with an overview of the speaker's background and research interests. Key concepts covered include definitions of machine learning, examples of machine learning applications, and the differences between supervised, unsupervised, and reinforcement learning. The rest of the document outlines the typical workflow for a supervised learning problem, including data collection and preprocessing, model training and evaluation, and model selection. Common classification algorithms like decision trees, naive Bayes, and support vector machines are briefly explained. The presentation concludes with discussions around choosing the right algorithm and avoiding overfitting.

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Practical Data Science An Introduction to Supervised Machine Learning and Pattern Classification: The Big Picture Michigan State University NextGen Bioinformatics Seminars - 2015 Sebastian Raschka Feb. 11, 2015
A Little Bit About Myself ... Developing software & methods for - Protein ligand docking - Large scale drug/inhibitor discovery PhD candidate in Dr. L. Kuhn’s Lab: and some other machine learning side-projects …
What is Machine Learning? http://drewconway.com/zia/2013/3/26/the-data-science-venn-diagram "Field of study that gives computers the ability to learn without being explicitly programmed.” (Arthur Samuel, 1959) By Phillip Taylor [CC BY 2.0]
http://commons.wikimedia.org/wiki/ File:American_book_company_1916._letter_envelope-2.JPG#filelinks [public domain] https://flic.kr/p/5BLW6G [CC BY 2.0] Text Recognition Spam Filtering Biology Examples of Machine Learning
Examples of Machine Learning http://googleresearch.blogspot.com/2014/11/a-picture-is-worth-thousand-coherent.html By Steve Jurvetson [CC BY 2.0] Self-driving cars Photo search and many, many more ... Recommendation systems http://commons.wikimedia.org/wiki/File:Netflix_logo.svg [public domain]
How many of you have used machine learning before?
Our Agenda • Concepts and the big picture • Workflow • Practical tips & good habits
Learning • Labeled data • Direct feedback • Predict outcome/future • Decision process • Reward system • Learn series of actions • No labels • No feedback • “Find hidden structure” Unsupervised Supervised Reinforcement
Unsupervised learning Supervised learning Clustering: [DBSCAN on a toy dataset] Classification: [SVM on 2 classes of the Wine dataset] Regression: [Soccer Fantasy Score prediction] Today’s topic Supervised LearningUnsupervised Learning
Instances (samples, observations) Features (attributes, dimensions) Classes (targets) Nomenclature sepal_length sepal_width petal_length petal_width class 1 5.1 3.5 1.4 0.2 setosa 2 4.9 3.0 1.4 0.2 setosa … … … … … … 50 6.4 3.2 4.5 1.5 veriscolor … … … … … … 150 5.9 3.0 5.1 1.8 virginica https://archive.ics.uci.edu/ml/datasets/Iris IRIS
Classification x1 x2 class1 class2 1) Learn from training data 2) Map unseen (new) data ?
Feature Extraction Feature Selection Dimensionality Reduction Feature Scaling Raw Data Collection Pre-Processing Sampling Test Dataset Training Dataset Learning Algorithm Training Post-Processing Cross Validation Final Classification/ Regression Model New DataPre-Processing Refinement Prediction Split Supervised Learning Sebastian Raschka 2014 Missing Data Performance Metrics Model Selection Hyperparameter Optimization This work is licensed under a Creative Commons Attribution 4.0 International License. Final Model Evaluation
Feature Extraction Feature Selection Dimensionality Reduction Feature Scaling Raw Data Collection Pre-Processing Sampling Test Dataset Training Dataset Learning Algorithm Training Post-Processing Cross Validation Final Classification/ Regression Model New DataPre-Processing Refinement Prediction Split Supervised Learning Sebastian Raschka 2014 Missing Data Performance Metrics Model Selection Hyperparameter Optimization This work is licensed under a Creative Commons Attribution 4.0 International License. Final Model Evaluation
A Few Common Classifiers Decision Tree Perceptron Naive Bayes Ensemble Methods: Random Forest, Bagging, AdaBoost Support Vector Machine K-Nearest Neighbor Logistic Regression Artificial Neural Network / Deep Learning
Discriminative Algorithms Generative Algorithms • Models a more general problem: how the data was generated. • I.e., the distribution of the class; joint probability distribution p(x,y). • Naive Bayes, Bayesian Belief Network classifier, Restricted Boltzmann Machine … • Map x → y directly. • E.g., distinguish between people speaking different languages without learning the languages. • Logistic Regression, SVM, Neural Networks …
Examples of Discriminative Classifiers: Perceptron xi1 xi2 w1 w2 Σ yi y = wTx = w0 + w1x1 + w2x2 1 F. Rosenblatt. The perceptron, a perceiving and recognizing automaton Project Para. Cornell Aeronautical Laboratory, 1957. x1 x2 y ∈ {-1,1} w0 wj = weight xi = training sample yi = desired output yi = actual output t = iteration step η = learning rate θ = threshold (here 0) update rule: wj(t+1) = wj(t) + η(yi - yi)xi 1 if wTxi ≥ θ -1 otherwise ^ ^ ^ ^ yi ^ until t+1 = max iter or error = 0
Discriminative Classifiers: Perceptron F. Rosenblatt. The perceptron, a perceiving and recognizing automaton Project Para. Cornell Aeronautical Laboratory, 1957. - Binary classifier (one vs all, OVA) - Convergence problems (set n iterations) - Modification: stochastic gradient descent - “Modern” perceptron: Support Vector Machine (maximize margin) - Multilayer perceptron (MLP) xi1 xi2 w1 w2 Σ yi 1 y ∈ {-1,1} w0 ^ x1 x2
Generative Classifiers: Naive Bayes Bayes Theorem: P(ωj | xi) = P(xi | ωj) P(ωj) P(xi) Posterior probability = Likelihood x Prior probability Evidence Iris example: P(“Setosa"| xi), xi = [4.5 cm, 7.4 cm]
Generative Classifiers: Naive Bayes Decision Rule: Bayes Theorem: P(ωj | xi) = P(xi | ωj) P(ωj) P(xi) pred. class label ωj argmax P(ωj | xi) i = 1, …, m e.g., j ∈ {Setosa, Versicolor, Virginica}
Class-conditional probability (here Gaussian kernel): Generative Classifiers: Naive Bayes Prior probability: Evidence: (cancels out) (class frequency) P(ωj | xi) = P(xi | ωj) P(ωj) P(xi) P(ωj) = Nωj Nc P(xik |ωj) = 1 √ (2 π σωj 2) exp ( )- (xik - μωj)2 2σωj 2 P(xi |ωj) P(xik |ωj)
Generative Classifiers: Naive Bayes - Naive conditional independence assumption typically violated - Works well for small datasets - Multinomial model still quite popular for text classification (e.g., spam filter)
Non-Parametric Classifiers: K-Nearest Neighbor - Simple! - Lazy learner - Very susceptible to curse of dimensionality k=3 e.g., k=1
Iris Example Setosa Virginica Versicolor k = 3 mahalanobis dist. uniform weights C = 3 depth = 2
Decision Tree Entropy = depth = 4 petal length <= 2.45? petal length <= 4.75? Setosa Virginica Versicolor Yes No e.g., 2 (- 0.5 log2(0.5)) = 1 ∑−pi logk pi i Information Gain = entropy(parent) – [avg entropy(children)] NoYes depth = 2
"No Free Lunch" :( Roughly speaking: “No one model works best for all possible situations.” Our model is a simplification of reality Simplification is based on assumptions (model bias) Assumptions fail in certain situations D. H. Wolpert. The supervised learning no-free-lunch theorems. In Soft Computing and Industry, pages 25–42. Springer, 2002.
Which Algorithm? • What is the size and dimensionality of my training set? • Is the data linearly separable? • How much do I care about computational efficiency? - Model building vs. real-time prediction time - Eager vs. lazy learning / on-line vs. batch learning - prediction performance vs. speed • Do I care about interpretability or should it "just work well?" • ...
Feature Extraction Feature Selection Dimensionality Reduction Feature Scaling Raw Data Collection Pre-Processing Sampling Test Dataset Training Dataset Learning Algorithm Training Post-Processing Cross Validation Final Classification/ Regression Model New DataPre-Processing Refinement Prediction Split Supervised Learning Sebastian Raschka 2014 Missing Data Performance Metrics Model Selection Hyperparameter Optimization This work is licensed under a Creative Commons Attribution 4.0 International License. Final Model Evaluation
Missing Values: - Remove features (columns) - Remove samples (rows) - Imputation (mean, nearest neighbor, …) Sampling: - Random split into training and validation sets - Typically 60/40, 70/30, 80/20 - Don’t use validation set until the very end! (overfitting) Feature Scaling: e.g., standardization: - Faster convergence (gradient descent) - Distances on same scale (k-NN with Euclidean distance) - Mean centering for free - Normal distributed data - Numerical stability by avoiding small weights z = xik - μk σk (use same parameters for the test/new data!)
Categorical Variables color size prize class label 0 green M 10.1 class1 1 red L 13.5 class2 2 blue XL 15.3 class1 ordinalnominal green → (1,0,0) red → (0,1,0) blue → (0,0,1) class label color=blue color=green color=red prize size 0 0 0 1 0 10.1 1 1 1 0 0 1 13.5 2 2 0 1 0 0 15.3 3 M → 1 L → 2 XL → 3
Feature Extraction Feature Selection Dimensionality Reduction Feature Scaling Raw Data Collection Pre-Processing Sampling Test Dataset Training Dataset Learning Algorithm Training Post-Processing Cross Validation Final Classification/ Regression Model New DataPre-Processing Refinement Prediction Split Supervised Learning Sebastian Raschka 2014 Missing Data Performance Metrics Model Selection Hyperparameter Optimization This work is licensed under a Creative Commons Attribution 4.0 International License. Final Model Evaluation
Generalization Error and Overfitting How well does the model perform on unseen data?
Generalization Error and Overfitting
Error Metrics: Confusion Matrix TP [Linear SVM on sepal/petal lengths] TN FN FP here: “setosa” = “positive”
Error Metrics TP [Linear SVM on sepal/petal lengths] TN FN FP here: “setosa” = “positive” TP + TN FP +FN +TP +TN Accuracy = = 1 - Error FP N TP P False Positive Rate = TP TP + FP Precision = True Positive Rate = (Recall) “micro” and “macro” averaging for multi-class
Receiver Operating Characteristic (ROC) Curves
Test set Training dataset Test dataset Complete dataset Test set Test set Test set 1st iteration calc. error calc. error calc. error calc. error calculate avg. error k-fold cross-validation (k=4): 2nd iteration 3rd iteration 4th iteration fold 1 fold 2 fold 3 fold 4 Model Selection
k-fold CV and ROC
Feature Selection - Domain knowledge - Variance threshold - Exhaustive search - Decision trees - … IMPORTANT! (Noise, overfitting, curse of dimensionality, efficiency) X = [x1, x2, x3, x4]start: stop: (if d = k) X = [x1, x3, x4] X = [x1, x3] Simplest example: Greedy Backward Selection
Dimensionality Reduction • Transformation onto a new feature subspace • e.g., Principal Component Analysis (PCA) • Find directions of maximum variance • Retain most of the information
0. Standardize data 1. Compute covariance matrix z = xik - μk σik = ∑ (xij - µj) (xik - µk) σk 1 in -1 σ2 1 σ12 σ13 σ14 σ21 σ2 2 σ23 σ24 σ31 σ32 σ2 3 σ34 σ41 σ42 σ43 σ2 4 ∑ = PCA in 3 Steps
2. Eigendecomposition and sorting eigenvalues PCA in 3 Steps X v = λ v Eigenvectors [[ 0.52237162 -0.37231836 -0.72101681 0.26199559] [-0.26335492 -0.92555649 0.24203288 -0.12413481] [ 0.58125401 -0.02109478 0.14089226 -0.80115427] [ 0.56561105 -0.06541577 0.6338014 0.52354627]] Eigenvalues [ 2.93035378 0.92740362 0.14834223 0.02074601] (from high to low)
3. Select top k eigenvectors and transform data PCA in 3 Steps Eigenvectors [[ 0.52237162 -0.37231836 -0.72101681 0.26199559] [-0.26335492 -0.92555649 0.24203288 -0.12413481] [ 0.58125401 -0.02109478 0.14089226 -0.80115427] [ 0.56561105 -0.06541577 0.6338014 0.52354627]] Eigenvalues [ 2.93035378 0.92740362 0.14834223 0.02074601] [First 2 PCs of Iris]
Hyperparameter Optimization: GridSearch in scikit-learn
Non-Linear Problems - XOR gate k=11 uniform weights C=1 C=1000, gamma=0.1 depth=4
Kernel Trick Kernel function Kernel Map onto high-dimensional space (non-linear combinations)
Kernel Trick Trick: No explicit dot product! Radius Basis Function (RBF) Kernel:
Kernel PCA PC1, linear PCA PC1, kernel PCA
Feature Extraction Feature Selection Dimensionality Reduction Feature Scaling Raw Data Collection Pre-Processing Sampling Test Dataset Training Dataset Learning Algorithm Training Post-Processing Cross Validation Final Classification/ Regression Model New DataPre-Processing Refinement Prediction Split Supervised Learning Sebastian Raschka 2014 Missing Data Performance Metrics Model Selection Hyperparameter Optimization This work is licensed under a Creative Commons Attribution 4.0 International License. Final Model Evaluation
Questions? mail@sebastianraschka.com https://github.com/rasbt @rasbt Thanks!
Additional Slides
Inspiring Literature P. N. Klein. Coding the Matrix: Linear Algebra Through Computer Science Applications. Newtonian Press, 2013. R. Schutt and C. O’Neil. Doing Data Science: Straight Talk from the Frontline. O’Reilly Media, Inc., 2013. S. Gutierrez. Data Scientists at Work. Apress, 2014. R. O. Duda, P. E. Hart, and D. G. Stork. Pattern classification. 2nd. Edition. New York, 2001.
Useful Online Resources https://www.coursera.org/course/ml http://stats.stackexchange.com http://www.kaggle.com
My Favorite Tools http://stanford.edu/~mwaskom/software/seaborn/ Seaborn http://www.numpy.org http://pandas.pydata.org http://scikit-learn.org/stable/ http://ipython.org/notebook.html
class1 class2 Which one to pick?
class1 class2 The problem of overfitting Generalization error!

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An Introduction to Supervised Machine Learning and Pattern Classification: The Big Picture

  • 1. Practical Data Science An Introduction to Supervised Machine Learning and Pattern Classification: The Big Picture Michigan State University NextGen Bioinformatics Seminars - 2015 Sebastian Raschka Feb. 11, 2015
  • 2. A Little Bit About Myself ... Developing software & methods for - Protein ligand docking - Large scale drug/inhibitor discovery PhD candidate in Dr. L. Kuhn’s Lab: and some other machine learning side-projects …
  • 3. What is Machine Learning? http://drewconway.com/zia/2013/3/26/the-data-science-venn-diagram "Field of study that gives computers the ability to learn without being explicitly programmed.” (Arthur Samuel, 1959) By Phillip Taylor [CC BY 2.0]
  • 5. Examples of Machine Learning http://googleresearch.blogspot.com/2014/11/a-picture-is-worth-thousand-coherent.html By Steve Jurvetson [CC BY 2.0] Self-driving cars Photo search and many, many more ... Recommendation systems http://commons.wikimedia.org/wiki/File:Netflix_logo.svg [public domain]
  • 6. How many of you have used machine learning before?
  • 7. Our Agenda • Concepts and the big picture • Workflow • Practical tips & good habits
  • 8. Learning • Labeled data • Direct feedback • Predict outcome/future • Decision process • Reward system • Learn series of actions • No labels • No feedback • “Find hidden structure” Unsupervised Supervised Reinforcement
  • 9. Unsupervised learning Supervised learning Clustering: [DBSCAN on a toy dataset] Classification: [SVM on 2 classes of the Wine dataset] Regression: [Soccer Fantasy Score prediction] Today’s topic Supervised LearningUnsupervised Learning
  • 10. Instances (samples, observations) Features (attributes, dimensions) Classes (targets) Nomenclature sepal_length sepal_width petal_length petal_width class 1 5.1 3.5 1.4 0.2 setosa 2 4.9 3.0 1.4 0.2 setosa … … … … … … 50 6.4 3.2 4.5 1.5 veriscolor … … … … … … 150 5.9 3.0 5.1 1.8 virginica https://archive.ics.uci.edu/ml/datasets/Iris IRIS
  • 11. Classification x1 x2 class1 class2 1) Learn from training data 2) Map unseen (new) data ?
  • 12. Feature Extraction Feature Selection Dimensionality Reduction Feature Scaling Raw Data Collection Pre-Processing Sampling Test Dataset Training Dataset Learning Algorithm Training Post-Processing Cross Validation Final Classification/ Regression Model New DataPre-Processing Refinement Prediction Split Supervised Learning Sebastian Raschka 2014 Missing Data Performance Metrics Model Selection Hyperparameter Optimization This work is licensed under a Creative Commons Attribution 4.0 International License. Final Model Evaluation
  • 13. Feature Extraction Feature Selection Dimensionality Reduction Feature Scaling Raw Data Collection Pre-Processing Sampling Test Dataset Training Dataset Learning Algorithm Training Post-Processing Cross Validation Final Classification/ Regression Model New DataPre-Processing Refinement Prediction Split Supervised Learning Sebastian Raschka 2014 Missing Data Performance Metrics Model Selection Hyperparameter Optimization This work is licensed under a Creative Commons Attribution 4.0 International License. Final Model Evaluation
  • 14. A Few Common Classifiers Decision Tree Perceptron Naive Bayes Ensemble Methods: Random Forest, Bagging, AdaBoost Support Vector Machine K-Nearest Neighbor Logistic Regression Artificial Neural Network / Deep Learning
  • 15. Discriminative Algorithms Generative Algorithms • Models a more general problem: how the data was generated. • I.e., the distribution of the class; joint probability distribution p(x,y). • Naive Bayes, Bayesian Belief Network classifier, Restricted Boltzmann Machine … • Map x → y directly. • E.g., distinguish between people speaking different languages without learning the languages. • Logistic Regression, SVM, Neural Networks …
  • 16. Examples of Discriminative Classifiers: Perceptron xi1 xi2 w1 w2 Σ yi y = wTx = w0 + w1x1 + w2x2 1 F. Rosenblatt. The perceptron, a perceiving and recognizing automaton Project Para. Cornell Aeronautical Laboratory, 1957. x1 x2 y ∈ {-1,1} w0 wj = weight xi = training sample yi = desired output yi = actual output t = iteration step η = learning rate θ = threshold (here 0) update rule: wj(t+1) = wj(t) + η(yi - yi)xi 1 if wTxi ≥ θ -1 otherwise ^ ^ ^ ^ yi ^ until t+1 = max iter or error = 0
  • 17. Discriminative Classifiers: Perceptron F. Rosenblatt. The perceptron, a perceiving and recognizing automaton Project Para. Cornell Aeronautical Laboratory, 1957. - Binary classifier (one vs all, OVA) - Convergence problems (set n iterations) - Modification: stochastic gradient descent - “Modern” perceptron: Support Vector Machine (maximize margin) - Multilayer perceptron (MLP) xi1 xi2 w1 w2 Σ yi 1 y ∈ {-1,1} w0 ^ x1 x2
  • 18. Generative Classifiers: Naive Bayes Bayes Theorem: P(ωj | xi) = P(xi | ωj) P(ωj) P(xi) Posterior probability = Likelihood x Prior probability Evidence Iris example: P(“Setosa"| xi), xi = [4.5 cm, 7.4 cm]
  • 19. Generative Classifiers: Naive Bayes Decision Rule: Bayes Theorem: P(ωj | xi) = P(xi | ωj) P(ωj) P(xi) pred. class label ωj argmax P(ωj | xi) i = 1, …, m e.g., j ∈ {Setosa, Versicolor, Virginica}
  • 20. Class-conditional probability (here Gaussian kernel): Generative Classifiers: Naive Bayes Prior probability: Evidence: (cancels out) (class frequency) P(ωj | xi) = P(xi | ωj) P(ωj) P(xi) P(ωj) = Nωj Nc P(xik |ωj) = 1 √ (2 π σωj 2) exp ( )- (xik - μωj)2 2σωj 2 P(xi |ωj) P(xik |ωj)
  • 21. Generative Classifiers: Naive Bayes - Naive conditional independence assumption typically violated - Works well for small datasets - Multinomial model still quite popular for text classification (e.g., spam filter)
  • 22. Non-Parametric Classifiers: K-Nearest Neighbor - Simple! - Lazy learner - Very susceptible to curse of dimensionality k=3 e.g., k=1
  • 23. Iris Example Setosa Virginica Versicolor k = 3 mahalanobis dist. uniform weights C = 3 depth = 2
  • 24. Decision Tree Entropy = depth = 4 petal length <= 2.45? petal length <= 4.75? Setosa Virginica Versicolor Yes No e.g., 2 (- 0.5 log2(0.5)) = 1 ∑−pi logk pi i Information Gain = entropy(parent) – [avg entropy(children)] NoYes depth = 2
  • 25. "No Free Lunch" :( Roughly speaking: “No one model works best for all possible situations.” Our model is a simplification of reality Simplification is based on assumptions (model bias) Assumptions fail in certain situations D. H. Wolpert. The supervised learning no-free-lunch theorems. In Soft Computing and Industry, pages 25–42. Springer, 2002.
  • 26. Which Algorithm? • What is the size and dimensionality of my training set? • Is the data linearly separable? • How much do I care about computational efficiency? - Model building vs. real-time prediction time - Eager vs. lazy learning / on-line vs. batch learning - prediction performance vs. speed • Do I care about interpretability or should it "just work well?" • ...
  • 27. Feature Extraction Feature Selection Dimensionality Reduction Feature Scaling Raw Data Collection Pre-Processing Sampling Test Dataset Training Dataset Learning Algorithm Training Post-Processing Cross Validation Final Classification/ Regression Model New DataPre-Processing Refinement Prediction Split Supervised Learning Sebastian Raschka 2014 Missing Data Performance Metrics Model Selection Hyperparameter Optimization This work is licensed under a Creative Commons Attribution 4.0 International License. Final Model Evaluation
  • 28. Missing Values: - Remove features (columns) - Remove samples (rows) - Imputation (mean, nearest neighbor, …) Sampling: - Random split into training and validation sets - Typically 60/40, 70/30, 80/20 - Don’t use validation set until the very end! (overfitting) Feature Scaling: e.g., standardization: - Faster convergence (gradient descent) - Distances on same scale (k-NN with Euclidean distance) - Mean centering for free - Normal distributed data - Numerical stability by avoiding small weights z = xik - μk σk (use same parameters for the test/new data!)
  • 29. Categorical Variables color size prize class label 0 green M 10.1 class1 1 red L 13.5 class2 2 blue XL 15.3 class1 ordinalnominal green → (1,0,0) red → (0,1,0) blue → (0,0,1) class label color=blue color=green color=red prize size 0 0 0 1 0 10.1 1 1 1 0 0 1 13.5 2 2 0 1 0 0 15.3 3 M → 1 L → 2 XL → 3
  • 30. Feature Extraction Feature Selection Dimensionality Reduction Feature Scaling Raw Data Collection Pre-Processing Sampling Test Dataset Training Dataset Learning Algorithm Training Post-Processing Cross Validation Final Classification/ Regression Model New DataPre-Processing Refinement Prediction Split Supervised Learning Sebastian Raschka 2014 Missing Data Performance Metrics Model Selection Hyperparameter Optimization This work is licensed under a Creative Commons Attribution 4.0 International License. Final Model Evaluation
  • 31. Generalization Error and Overfitting How well does the model perform on unseen data?
  • 32. Generalization Error and Overfitting
  • 33. Error Metrics: Confusion Matrix TP [Linear SVM on sepal/petal lengths] TN FN FP here: “setosa” = “positive”
  • 34. Error Metrics TP [Linear SVM on sepal/petal lengths] TN FN FP here: “setosa” = “positive” TP + TN FP +FN +TP +TN Accuracy = = 1 - Error FP N TP P False Positive Rate = TP TP + FP Precision = True Positive Rate = (Recall) “micro” and “macro” averaging for multi-class
  • 36. Test set Training dataset Test dataset Complete dataset Test set Test set Test set 1st iteration calc. error calc. error calc. error calc. error calculate avg. error k-fold cross-validation (k=4): 2nd iteration 3rd iteration 4th iteration fold 1 fold 2 fold 3 fold 4 Model Selection
  • 38. Feature Selection - Domain knowledge - Variance threshold - Exhaustive search - Decision trees - … IMPORTANT! (Noise, overfitting, curse of dimensionality, efficiency) X = [x1, x2, x3, x4]start: stop: (if d = k) X = [x1, x3, x4] X = [x1, x3] Simplest example: Greedy Backward Selection
  • 39. Dimensionality Reduction • Transformation onto a new feature subspace • e.g., Principal Component Analysis (PCA) • Find directions of maximum variance • Retain most of the information
  • 40. 0. Standardize data 1. Compute covariance matrix z = xik - μk σik = ∑ (xij - µj) (xik - µk) σk 1 in -1 σ2 1 σ12 σ13 σ14 σ21 σ2 2 σ23 σ24 σ31 σ32 σ2 3 σ34 σ41 σ42 σ43 σ2 4 ∑ = PCA in 3 Steps
  • 41. 2. Eigendecomposition and sorting eigenvalues PCA in 3 Steps X v = λ v Eigenvectors [[ 0.52237162 -0.37231836 -0.72101681 0.26199559] [-0.26335492 -0.92555649 0.24203288 -0.12413481] [ 0.58125401 -0.02109478 0.14089226 -0.80115427] [ 0.56561105 -0.06541577 0.6338014 0.52354627]] Eigenvalues [ 2.93035378 0.92740362 0.14834223 0.02074601] (from high to low)
  • 42. 3. Select top k eigenvectors and transform data PCA in 3 Steps Eigenvectors [[ 0.52237162 -0.37231836 -0.72101681 0.26199559] [-0.26335492 -0.92555649 0.24203288 -0.12413481] [ 0.58125401 -0.02109478 0.14089226 -0.80115427] [ 0.56561105 -0.06541577 0.6338014 0.52354627]] Eigenvalues [ 2.93035378 0.92740362 0.14834223 0.02074601] [First 2 PCs of Iris]
  • 44. Non-Linear Problems - XOR gate k=11 uniform weights C=1 C=1000, gamma=0.1 depth=4
  • 45. Kernel Trick Kernel function Kernel Map onto high-dimensional space (non-linear combinations)
  • 46. Kernel Trick Trick: No explicit dot product! Radius Basis Function (RBF) Kernel:
  • 47. Kernel PCA PC1, linear PCA PC1, kernel PCA
  • 48. Feature Extraction Feature Selection Dimensionality Reduction Feature Scaling Raw Data Collection Pre-Processing Sampling Test Dataset Training Dataset Learning Algorithm Training Post-Processing Cross Validation Final Classification/ Regression Model New DataPre-Processing Refinement Prediction Split Supervised Learning Sebastian Raschka 2014 Missing Data Performance Metrics Model Selection Hyperparameter Optimization This work is licensed under a Creative Commons Attribution 4.0 International License. Final Model Evaluation
  • 51. Inspiring Literature P. N. Klein. Coding the Matrix: Linear Algebra Through Computer Science Applications. Newtonian Press, 2013. R. Schutt and C. O’Neil. Doing Data Science: Straight Talk from the Frontline. O’Reilly Media, Inc., 2013. S. Gutierrez. Data Scientists at Work. Apress, 2014. R. O. Duda, P. E. Hart, and D. G. Stork. Pattern classification. 2nd. Edition. New York, 2001.
  • 55. class1 class2 The problem of overfitting Generalization error!