#### Exercise 0: Environment and libraries ##### The exercise is validated is all questions of the exercise are validated. ##### Activate the virtual environment. If you used `conda` run `conda activate your_env` ##### Run `python --version` ###### Does it print `Python 3.x`? x >= 8? ###### Does `import jupyter`, `import numpy`, `import pandas`, `import matplotlib` and `import sklearn` run without any error? --- --- #### Exercise 1: Logistic regression with Scikit-learn ###### Is the predicted class for question 1 `0`? ###### Are the predicted probabilities for question 2 `[0.61450526 0.38549474]`? ###### Is the output for question 3 like this? ```console Coefficient: [[0.81786797]] Intercept: [-0.87522391] Score: 0.7142857142857143 ``` --- --- #### Exercise 2: Sigmoid ###### Does the plot for question 1 look like this? ![alt text][ex2q1] [ex2q1]: ../w2_day2_ex2_q1.png "Scatter plot" --- --- #### Exercise 3: Decision boundary ##### The exercise is validated is all questions of the exercise are validated ###### Does the outputted plot for question 1 look like this? ![alt text][ex3q1] [ex3q1]: ../w2_day2_ex3_q1.png "Scatter plot" ###### Are the coefficient and the intercept of the Logistic Regression for question 2 these? ```console Intercept: [-0.98385574] Coefficient: [[1.18866075]] ``` ###### Does the plot for question 3 look like this? ![alt text][ex3q2] [ex3q2]: ../w2_day2_ex3_q3.png "Scatter plot" ###### For question 4, does `predict_probability` output the same probabilities as `predict_proba`? Note that the values have to match one of the class probabilities, not both. To do so, compare the output with: `clf.predict_proba(X)[:,1]`. The shape of the arrays is not important. ###### Does `predict_class` output the same classes as `cfl.predict(X)` for question 5? The shape of the arrays is not important. ###### Does the plot for question 6 look like the plot below? As mentioned, it is not required to shift the class prediction to make the plot easier to understand. ![alt text][ex3q6] [ex3q6]: ../w2_day2_ex3_q5.png "Scatter plot + Logistic regression + predictions" ###### Does the plot look like this for question 7? ![alt text][ex3q7] [ex3q7]: ../w2_day2_ex3_q6.png "Logistic regression decision boundary" --- --- #### Exercise 4: Train test split ##### The exercise is validated if all questions of the exercise are validated ###### Do X_train, y_train, X_test, y_test match the output below for question 1? The proportion of class `1` is **0.125** in the train set and **1.** in the test set. ```console X_train: [[ 1 2] [ 3 4] [ 5 6] [ 7 8] [ 9 10] [11 12] [13 14] [15 16]] y_train: [0. 0. 0. 0. 0. 0. 0. 1.] X_test: [[17 18] [19 20]] y_test: [1. 1.] ``` ###### Is the proportion of class `1` **0.3** for both sets in question 2? --- --- #### Exercise 5: Breast Cancer prediction ###### The exercise is validated is all questions of the exercise are validated ###### Is the proportion of class `Benign` 0.6552217453505007 for question 1? It means that if you always predict `Benign` your accuracy would be 66%. ###### Is the proportion of one of the classes approximately the same on the train and test set: ~0.65 for question 2? In my case: - test: 0.6571428571428571 - train: 0.6547406082289803 ###### Is this the output for question 3? ```console # Train Class prediction on train set: [4 2 4 2 2 2 2 4 2 2] Probability prediction on train set: [0.99600415 0.00908666 0.99992744 0.00528803 0.02097154 0.00582772 0.03565076 0.99515326 0.00788281 0.01065484] Score on train set: 0.9695885509838998 #Test Class prediction on test set: [2 2 2 4 2 4 2 2 2 4] Probability prediction on test set: [0.01747203 0.22495309 0.00698756 0.54020801 0.0015289 0.99862249 0.33607994 0.01227679 0.00438157 0.99972344] Score on test set: 0.9642857142857143 ``` Only the 10 first predictions are outputted. The score is computed on all the data in the folds. For some reasons, you may have a different data splitting as mine. The requirement for this question is to have a score on the test set bigger than 92%. If the score is 1, congratulate you peer, he's just leaked his first target. The target should be dropped from the X_train or X_test ;) ! ###### Is the confusion matrix on the train set similar to this in question 4? ```console array([[357, 9], [ 8, 185]]) ``` and if the confusion matrix on the test set is similar to: ```console array([[90, 2], [ 3, 45]]) ``` As said, for some reasons, the results may be slightly different from mine because of the data splitting. However, the values in the confusion matrix should be close to these results. --- --- #### Bonus #### Exercise 6: Multi-class (Optional) ##### The exercise is validated if all questions of the exercise are validated ###### +Does each classifier have as input a binary data as below for question 1? ```python def train(X_train, y_train): clf = LogisticRegression() clf1 = LogisticRegression() clf2 = LogisticRegression() clf.fit(X_train, y_train == 0) clf1.fit(X_train, y_train == 1) clf2.fit(X_train, y_train == 2) return clf, clf1, clf2 ``` ###### +Are this the predicted classes on the test set for question 2? ```console array([0, 0, 2, 1, 2, 0, 2, 1, 1, 1, 0, 1, 2, 0, 1, 1, 0, 0, 2, 2, 0, 0, 0, 2, 2, 2, 0, 1, 0, 0]) ``` Even if I had this warning `ConvergenceWarning: lbfgs failed to converge (status=1):` I noticed that `LogisticRegression` returns the same output.