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tuiza-reph commited on Apr 29

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f2d77d8

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model.joblib +3 -0
requirements.txt +1 -0
train.py +80 -0

model.joblib ADDED Viewed

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+version https://git-lfs.github.com/spec/v1
+oid sha256:6c3c382c7233f0463a9c2698c7190fa6a89f2704433ae79735d9a6a1acfb5529
+size 8439

requirements.txt ADDED Viewed

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1	+ scikit-learn==1.2.2

train.py ADDED Viewed

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+import joblib
+import pandas as pd
+from sklearn.preprocessing import StandardScaler, OneHotEncoder
+from sklearn.compose import make_column_transformer
+from sklearn.impute import SimpleImputer
+from sklearn.pipeline import Pipeline
+from sklearn.pipeline import make_pipeline
+from sklearn.model_selection import train_test_split, RandomizedSearchCV
+from sklearn.linear_model import LogisticRegression
+from sklearn.metrics import accuracy_score, classification_report
+data_df = pd.read_csv("Bank_Telemarketing.csv")
+target = 'subscribed'
+numerical_features = ['Age', 'Duration(Sec)', 'CC Contact Freq', 'Days Since PC','PC Contact Freq']
+categorical_features = ['Job', 'Marital Status', 'Education', 'Defaulter', 'Home Loan',
+       'Personal Loan', 'Communication Type', 'Last Contacted', 'Day of Week',
+       'PC Outcome']
+print("Creating data subsets")
+X = data_df[numerical_features + categorical_features]
+y = data_df[target]
+Xtrain, Xtest, ytrain, ytest = train_test_split(
+    X, y,
+    test_size=0.2,
+    random_state=42
+)
+numerical_pipeline = Pipeline([
+    ('imputer', SimpleImputer(strategy='median')),
+    ('scaler', StandardScaler())
+])
+categorical_pipeline = Pipeline([
+    ('imputer', SimpleImputer(strategy='most_frequent')),
+    ('onehot', OneHotEncoder(handle_unknown='ignore'))
+])
+preprocessor = make_column_transformer(
+    (numerical_pipeline, numerical_features),
+    (categorical_pipeline, categorical_features)
+)
+model_logistic_regression = LogisticRegression(n_jobs=-1)
+print("Estimating Best Model Pipeline")
+model_pipeline = make_pipeline(
+    preprocessor,
+    model_logistic_regression
+)
+param_distribution = {
+    "logisticregression__C": [0.001, 0.01, 0.1, 0.5, 1, 5, 10]
+}
+rand_search_cv = RandomizedSearchCV(
+    model_pipeline,
+    param_distribution,
+    n_iter=3,
+    cv=3,
+    random_state=42
+)
+rand_search_cv.fit(Xtrain, ytrain)
+print("Logging Metrics")
+print(f"Accuracy: {rand_search_cv.best_score_}")
+print("Serializing Model")
+saved_model_path = "model.joblib"
+joblib.dump(rand_search_cv.best_estimator_, saved_model_path)