Handle clustering classification the same as other classification models again.
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c51e0da0f7
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aa13123136
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@ -14,9 +14,7 @@
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# ---
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# ---
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# %% jupyter={"source_hidden": true}
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# %% jupyter={"source_hidden": true}
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# %matplotlib inline
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from pathlib import Path
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import os
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import sys
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import matplotlib.pyplot as plt
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import matplotlib.pyplot as plt
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import numpy as np
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import numpy as np
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@ -27,11 +25,6 @@ from sklearn.model_selection import LeaveOneGroupOut, StratifiedKFold, cross_val
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from machine_learning.classification_models import ClassificationModels
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from machine_learning.classification_models import ClassificationModels
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nb_dir = os.path.split(os.getcwd())[0]
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if nb_dir not in sys.path:
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sys.path.append(nb_dir)
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# %% [markdown]
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# %% [markdown]
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# # RAPIDS models
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# # RAPIDS models
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@ -42,10 +35,30 @@ CV_METHOD = "logo" # logo, halflogo, 5kfold
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# Cross-validation method (could be regarded as a hyperparameter)
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# Cross-validation method (could be regarded as a hyperparameter)
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N_SL = 1 # Number of largest/smallest accuracies (of particular CV) outputs
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N_SL = 1 # Number of largest/smallest accuracies (of particular CV) outputs
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# %%
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PATH_BASE = Path("E:/STRAWresults/20230415")
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SEGMENT_TYPE = "period"
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print("SEGMENT_TYPE: " + SEGMENT_TYPE)
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SEGMENT_LENGTH = "30_minutes_before"
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print("SEGMENT_LENGTH: " + SEGMENT_LENGTH)
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TARGET_VARIABLE = "appraisal_stressfulness"
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print("TARGET_VARIABLE: " + TARGET_VARIABLE)
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if ("appraisal" in TARGET_VARIABLE) and ("stressfulness" in TARGET_VARIABLE):
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TARGET_VARIABLE += "_"
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TARGET_VARIABLE += SEGMENT_TYPE
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PATH_FULL = PATH_BASE / SEGMENT_LENGTH / ("input_" + TARGET_VARIABLE + "_mean.csv")
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model_input = pd.read_csv(PATH_FULL)
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if SEGMENT_LENGTH == "daily":
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DAY_LENGTH = "daily" # or "working"
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print(DAY_LENGTH)
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model_input = model_input[model_input["local_segment"].str.contains(DAY_LENGTH)]
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# %% jupyter={"source_hidden": true}
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# %% jupyter={"source_hidden": true}
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model_input = pd.read_csv(
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"E:/STRAWresults/20230415/30_minutes_before/input_PANAS_negative_affect_mean.csv"
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)
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index_columns = [
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index_columns = [
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"local_segment",
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"local_segment",
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"local_segment_label",
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"local_segment_label",
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@ -53,10 +66,13 @@ index_columns = [
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"local_segment_end_datetime",
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"local_segment_end_datetime",
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]
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]
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lime_col = "limesurvey_demand_control_ratio_quartile"
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CLUST_COL = "limesurvey_demand_control_ratio_quartile"
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clust_col = lime_col
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print("CLUST_COL: " + CLUST_COL)
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model_input[clust_col].describe()
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BINS = [-1, 0, 4]
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print("BINS: " + str(BINS))
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model_input[CLUST_COL].describe()
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# %% jupyter={"source_hidden": true}
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# %% jupyter={"source_hidden": true}
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@ -64,9 +80,9 @@ model_input[clust_col].describe()
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# Filter-out outlier rows by clust_col
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# Filter-out outlier rows by clust_col
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# model_input = model_input[(np.abs(stats.zscore(model_input[clust_col])) < 3)]
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# model_input = model_input[(np.abs(stats.zscore(model_input[clust_col])) < 3)]
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uniq = model_input[[clust_col, "pid"]].drop_duplicates().reset_index(drop=True)
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uniq = model_input[[CLUST_COL, "pid"]].drop_duplicates().reset_index(drop=True)
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uniq = uniq.dropna()
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uniq = uniq.dropna()
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plt.bar(uniq["pid"], uniq[clust_col])
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plt.bar(uniq["pid"], uniq[CLUST_COL])
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# %% jupyter={"source_hidden": true}
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# %% jupyter={"source_hidden": true}
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# Get clusters by cluster col & and merge the clusters to main df
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# Get clusters by cluster col & and merge the clusters to main df
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@ -87,15 +103,14 @@ cmodels = cm.get_cmodels()
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# %% jupyter={"source_hidden": true}
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# %% jupyter={"source_hidden": true}
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for k in range(N_CLUSTERS):
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for k in range(N_CLUSTERS):
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model_input_subset = model_input[model_input["cluster"] == k].copy()
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model_input_subset = model_input[model_input["cluster"] == k].copy()
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bins = [-1, 1, 2, 4] # bins for z-scored targets
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model_input_subset.loc[:, "target"] = pd.cut(
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model_input_subset.loc[:, "target"] = pd.cut(
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model_input_subset.loc[:, "target"],
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model_input_subset.loc[:, "target"],
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bins=bins,
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bins=BINS,
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labels=["low", "medium", "high"],
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labels=["low", "high"],
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right=False,
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right=False,
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) # ['low', 'medium', 'high']
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) # ['low', 'medium', 'high']
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model_input_subset["target"].value_counts()
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model_input_subset["target"].value_counts()
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model_input_subset = model_input_subset[model_input_subset["target"] != "medium"]
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# model_input_subset = model_input_subset[model_input_subset["target"] != "medium"]
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model_input_subset["target"] = (
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model_input_subset["target"] = (
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model_input_subset["target"].astype(str).apply(lambda x: 0 if x == "low" else 1)
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model_input_subset["target"].astype(str).apply(lambda x: 0 if x == "low" else 1)
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)
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)
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@ -206,11 +221,17 @@ for k in range(N_CLUSTERS):
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scores = cm.get_total_models_scores(n_clusters=N_CLUSTERS)
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scores = cm.get_total_models_scores(n_clusters=N_CLUSTERS)
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# %%
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# %%
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scores.to_csv(
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PATH_OUTPUT = Path("..") / Path("presentation/results")
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"../presentation/results/PANAS_negative_affect_30min_classification_"
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path_output_full = PATH_OUTPUT / (
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TARGET_VARIABLE
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+ "_"
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+ SEGMENT_LENGTH
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+ "_classification_"
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+ CV_METHOD
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+ CV_METHOD
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+ str(BINS)
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+ "_clust_"
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+ "_clust_"
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+ CLUST_COL
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+ str(N_CLUSTERS)
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+ str(N_CLUSTERS)
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+ ".csv",
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+ ".csv"
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index=False,
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)
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)
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scores.to_csv(path_output_full, index=False)
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