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import tensorflow as tf |
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from tensorflow import keras |
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import numpy as np |
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import matplotlib.pyplot as plt |
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import pandas as pd |
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from sklearn.model_selection import train_test_split |
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from sklearn import preprocessing |
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import seaborn as sns |
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from sklearn.preprocessing import LabelEncoder |
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import streamlit as st |
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st.title("Rouge Component Model") |
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df = pd.read_csv('identify_rogue_50K_ALL.csv') |
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print("Dataset Size:",df.shape) |
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st.sidebar.header('Enter the Components Details here') |
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df.drop(['SRU serial number','Date of Manufacture','Last Maintenance Date','date of last failure'], axis = 1, inplace=True) |
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def user_report(): |
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manufacturer = st.sidebar.selectbox("Manufacturer", |
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("JKL Company", "GHI Company","AGS Company","ABC Company","ABC Company","XYZ Company" )) |
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if manufacturer=='JKL Company': |
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manufacturer=3 |
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elif manufacturer=="GHI Company": |
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manufacturer=2 |
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elif manufacturer=="AGS Company": |
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manufacturer=1 |
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elif manufacturer=="ABC Company": |
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manufacturer =0 |
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else: |
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manufacturer=4 |
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component_age = st.sidebar.slider('Component Age (in hours)', 500,2000, 600 ) |
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total_operating_hours = st.sidebar.slider('Total Operating Hours)', 50,2000, 500 ) |
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usage_intensity = st.sidebar.slider('Usage Intensity hours/day', 0,9, 5 ) |
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last_maintance_type = st.sidebar.selectbox('Last Mantainence Type', ("Preventive","Corrective") ) |
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if last_maintance_type=="Preventive": |
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last_maintance_type=1 |
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else: |
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last_maintance_type=0 |
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previous_number_of_repairs = st.sidebar.number_input('Enter the Previous Number of Repairs Undergone 0 to 5 )',min_value=0,max_value=5,step=1) |
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operating_temperature = st.sidebar.slider('Operating Temperature', 10,25, 15 ) |
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humidity = st.sidebar.slider('Humidity', 20,105, 25 ) |
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Vibration_Level = st.sidebar.slider('Vibration Level', 2,7, 2 ) |
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Pressure = st.sidebar.slider('Pressure', 200,550, 250 ) |
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Power_Input_Voltage= st.sidebar.slider('Power Input Voltage (V)',100,133,115) |
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repair_type = st.sidebar.selectbox('Repair Type', ("Hardware","Software") ) |
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if repair_type=='Hardware': |
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repair_type=0 |
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else: |
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repair_type=1 |
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number_of_inspection = st.sidebar.selectbox('Number of Inspections',('1','2')) |
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if number_of_inspection=='1': |
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number_of_inspection=1 |
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else: |
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number_of_inspection=2 |
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number_of_inspection_6months = st.sidebar.selectbox('Number of Inspections in last 6 Months',('0','1')) |
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if number_of_inspection_6months=='0': |
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number_of_inspection_6months=0 |
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else: |
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number_of_inspection_6months=1 |
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prior_maintainence = st.sidebar.selectbox('Prior Maintainence',("Regular","Irregular")) |
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if prior_maintainence =='Regular': |
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prior_maintainence=1 |
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else: |
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prior_maintainence=0 |
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user_report_data = { |
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'Manufacturer':manufacturer, |
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'Component_Age':component_age, |
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'Total Operating Hours':total_operating_hours, |
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'Usage Intensity (hours/day)':usage_intensity, |
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'Last Maintenance Type': last_maintance_type, |
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'Previous number of repairs':previous_number_of_repairs, |
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'Operating Temperature':operating_temperature, |
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'Humidity': humidity, |
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'Vibration Level':Vibration_Level, |
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'Pressure':Pressure, |
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'Power Input Voltage (V)':Power_Input_Voltage, |
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'repair type':repair_type , |
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'total number of inspection':number_of_inspection, |
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'No. of Inspections in Last 6 Months':number_of_inspection_6months, |
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'Prior Maintenance':prior_maintainence |
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} |
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report_data = pd.DataFrame(user_report_data, index=[0]) |
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return report_data |
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user_data = user_report() |
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st.header("Component Details") |
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st.write(user_data) |
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def label_encoder(df): |
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le = LabelEncoder() |
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cat = df.select_dtypes(include='O').keys() |
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categ = list(cat) |
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df[categ] = df[categ].apply(le.fit_transform) |
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return df |
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def preprocess_dataset(X): |
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x = X.values |
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min_max_scaler = preprocessing.MinMaxScaler() |
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x_scaled = min_max_scaler.fit_transform(x) |
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X_df = pd.DataFrame(x_scaled) |
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return X_df |
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def prediction(df): |
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X_test_encoded = label_encoder(df) |
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X_test_df = preprocess_dataset(X_test_encoded) |
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x_model = loaded_model = tf.keras.models.load_model('my_model') |
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y_pred = x_model.predict(X_test_df) |
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if y_pred ==0: |
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st.write('Rouge Component is Good') |
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else: |
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st.write('Rouge Component is not good') |
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prediction(user_data) |