Difference between revisions of "Learning Algorithms for Trading"
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| Line 4: | Line 4: | ||
*Parametric | *Parametric | ||
*Instance-based | *Instance-based | ||
| − | *Overview: LinReg, KNN, Decision Trees | + | *Overview: LinReg, KNN, Decision Trees |
==Lesson 2: How ML fits into the computing at a hedge fund== | ==Lesson 2: How ML fits into the computing at a hedge fund== | ||
Revision as of 00:11, 4 March 2015
Contents
- 1 Lesson 1: Supervised machine learning
- 2 Lesson 2: How ML fits into the computing at a hedge fund
- 3 Lesson 3: Time series prediction as an ML problem
- 4 Lesson 4: Learner APIs
- 5 Lesson 5: Linear regression
- 6 Lesson 6: KNN
- 7 Lesson 7: Assessing a learning algorithm
- 8 Lesson 8: Overfitting
- 9 Lesson 9: Decision trees
- 10 Lesson 10: Ensemble learners & bagging
- 11 Lesson 11: Random trees & forests
Lesson 1: Supervised machine learning
- Regression
- Classification
- Parametric
- Instance-based
- Overview: LinReg, KNN, Decision Trees
Lesson 2: How ML fits into the computing at a hedge fund
- Long/short
Lesson 3: Time series prediction as an ML problem
[note: need to create fake stock data that has embedded patterns]
Lesson 4: Learner APIs
Lesson 5: Linear regression
Lesson 6: KNN
Lesson 7: Assessing a learning algorithm
- Now that we have two, (linreg & KNN), let's compare them
- RMS error
- Scatterplot predict vs actual
- Corrcoef
