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| import random | |
| import pandas as pd | |
| import streamlit as st | |
| import pydeck as pdk | |
| from datetime import datetime, timedelta | |
| # ---- Constants ---- | |
| POLES_PER_SITE = 12 | |
| SITES = { | |
| "Hyderabad": [17.385044, 78.486671], | |
| "Gadwal": [16.2351, 77.8052], | |
| "Kurnool": [15.8281, 78.0373], | |
| "Ballari": [12.9716, 77.5946] | |
| } | |
| # ---- Helper Functions ---- | |
| def generate_location(base_lat, base_lon): | |
| return [ | |
| base_lat + random.uniform(-0.02, 0.02), | |
| base_lon + random.uniform(-0.02, 0.02) | |
| ] | |
| def simulate_pole(pole_id, site_name): | |
| lat, lon = generate_location(*SITES[site_name]) | |
| solar_kwh = round(random.uniform(3.0, 7.5), 2) | |
| wind_kwh = round(random.uniform(0.5, 2.0), 2) | |
| power_required = round(random.uniform(4.0, 8.0), 2) | |
| total_power = solar_kwh + wind_kwh | |
| power_status = 'Sufficient' if total_power >= power_required else 'Insufficient' | |
| tilt_angle = round(random.uniform(0, 45), 2) | |
| vibration = round(random.uniform(0, 5), 2) | |
| camera_status = random.choice(['Online', 'Offline']) | |
| alert_level = 'Green' | |
| anomaly_details = [] | |
| if tilt_angle > 30 or vibration > 3: | |
| alert_level = 'Yellow' | |
| anomaly_details.append("Tilt or Vibration threshold exceeded.") | |
| if tilt_angle > 40 or vibration > 4.5: | |
| alert_level = 'Red' | |
| anomaly_details.append("Critical tilt or vibration detected.") | |
| health_score = max(0, 100 - (tilt_angle + vibration * 10)) | |
| timestamp = datetime.now() - timedelta(hours=random.randint(0, 6)) | |
| return { | |
| 'Pole ID': f'{site_name[:3].upper()}-{pole_id:03}', | |
| 'Site': site_name, | |
| 'Latitude': lat, | |
| 'Longitude': lon, | |
| 'Solar (kWh)': solar_kwh, | |
| 'Wind (kWh)': wind_kwh, | |
| 'Power Required (kWh)': power_required, | |
| 'Total Power (kWh)': total_power, | |
| 'Power Status': power_status, | |
| 'Tilt Angle (Β°)': tilt_angle, | |
| 'Vibration (g)': vibration, | |
| 'Camera Status': camera_status, | |
| 'Health Score': round(health_score, 2), | |
| 'Alert Level': alert_level, | |
| 'Anomalies': "; ".join(anomaly_details), | |
| 'Last Checked': timestamp.strftime('%Y-%m-%d %H:%M:%S') | |
| } | |
| # ---- Streamlit UI ---- | |
| st.set_page_config(page_title="Smart Pole Monitoring", layout="wide") | |
| st.title("π Smart Renewable Pole Monitoring - Multi-Site") | |
| # π Dropdown for selecting site | |
| selected_site = st.selectbox( | |
| "Select Site to View:", | |
| options=list(SITES.keys()), # Hyderabad, Gadwal, Kurnool, Ballari | |
| index=0 # Default selected: Hyderabad | |
| ) | |
| if selected_site: | |
| with st.spinner(f"Simulating poles at {selected_site}..."): | |
| poles_data = [simulate_pole(i + 1, site) for site in SITES for i in range(POLES_PER_SITE)] | |
| df = pd.DataFrame(poles_data) | |
| site_df = df[df['Site'] == selected_site] | |
| # ---- Summary Metrics ---- | |
| col1, col2, col3 = st.columns(3) | |
| col1.metric("Total Poles", site_df.shape[0]) | |
| col2.metric("Red Alerts", site_df[site_df['Alert Level'] == 'Red'].shape[0]) | |
| col3.metric("Power Insufficiencies", site_df[site_df['Power Status'] == 'Insufficient'].shape[0]) | |
| # ---- Table View ---- | |
| st.subheader(f"π Pole Data Table for {selected_site}") | |
| with st.expander("Filter Options"): | |
| alert_filter = st.multiselect( | |
| "Alert Level", | |
| options=site_df['Alert Level'].unique(), | |
| default=site_df['Alert Level'].unique() | |
| ) | |
| camera_filter = st.multiselect( | |
| "Camera Status", | |
| options=site_df['Camera Status'].unique(), | |
| default=site_df['Camera Status'].unique() | |
| ) | |
| filtered_df = site_df[ | |
| (site_df['Alert Level'].isin(alert_filter)) & | |
| (site_df['Camera Status'].isin(camera_filter)) | |
| ] | |
| st.dataframe(filtered_df, use_container_width=True) | |
| # ---- Charts ---- | |
| st.subheader("π Energy Generation Comparison") | |
| st.bar_chart(site_df[['Solar (kWh)', 'Wind (kWh)']].mean()) | |
| st.subheader("π Tilt vs. Vibration") | |
| st.scatter_chart(site_df[['Tilt Angle (Β°)', 'Vibration (g)']]) | |
| # ---- Map Section with Tooltip ---- | |
| st.subheader("π Pole Alert Levels (Green, Yellow, Red)") | |
| def alert_level_to_color(alert_level): | |
| if alert_level == 'Red': | |
| return [255, 0, 0, 160] # Red | |
| elif alert_level == 'Yellow': | |
| return [255, 255, 0, 160] # Yellow | |
| else: | |
| return [0, 255, 0, 160] # Green | |
| if not site_df.empty: | |
| site_df = site_df.copy() | |
| site_df['Color'] = site_df['Alert Level'].apply(alert_level_to_color) | |
| st.pydeck_chart(pdk.Deck( | |
| initial_view_state=pdk.ViewState( | |
| latitude=SITES[selected_site][0], | |
| longitude=SITES[selected_site][1], | |
| zoom=12, | |
| pitch=50 | |
| ), | |
| layers=[ | |
| pdk.Layer( | |
| 'ScatterplotLayer', | |
| data=site_df, | |
| get_position='[Longitude, Latitude]', | |
| get_color='Color', | |
| get_radius=100, | |
| pickable=True | |
| ) | |
| ], | |
| tooltip={ | |
| "html": "<b>Pole ID:</b> {Pole ID}<br/>" | |
| "<b>Health Score:</b> {Health Score}<br/>" | |
| "<b>Alert Level:</b> {Alert Level}<br/>" | |
| "<b>Power Status:</b> {Power Status}<br/>" | |
| "<b>Camera Status:</b> {Camera Status}<br/>" | |
| "<b>Last Checked:</b> {Last Checked}", | |
| "style": { | |
| "backgroundColor": "black", | |
| "color": "white" | |
| } | |
| } | |
| )) | |
| st.markdown("<h3 style='text-align: center;'>Click on a pole to view details</h3>", unsafe_allow_html=True) | |
| else: | |
| st.info("No poles data available for this site.") | |