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Title: Automatic Emergency Braking System Description: This system uses sensors to detect electronic waves and applies automatic emergency braking if the waves are not received correctly. Interface: Sensor Status: Sensor 1: [Status: Online/Offline] Sensor 2: [Status: Online/Offline] Sensor 3: [Status: Online/Offline] Wave Reception: Wave 1: [Received/Not Received] Wave 2: [Received/Not Received] Wave 3: [Received/Not Received] Emergency Braking: Braking Status: [Enabled/Disabled] Braking Threshold: [Threshold Value] Settings: Sensor Sensitivity: [Sensitivity Level] Braking Delay: [Delay Time] Actions: Start Monitoring: Start monitoring sensor status and wave reception. Stop Monitoring: Stop monitoring sensor status and wave reception. Apply Emergency Braking: Apply emergency braking if the waves are not received correctly. Code Snippet: python import time import random # Define sensor status and wave reception variables sensor_status = {'Sensor 1': 'Online', 'Sensor 2': 'Online', 'Sensor 3': 'Online'} wave_reception = {'Wave 1': 'Received', 'Wave 2': 'Received', 'Wave 3': 'Received'} # Define emergency braking threshold and delay braking_threshold = 2 braking_delay = 1 # Define sensor sensitivity sensitivity = 0.5 # Define the function to check wave reception def check_wave_reception(): global wave_reception for wave in wave_reception: if random.random() < sensitivity: wave_reception[wave] = 'Not Received' # Define the function to apply emergency braking def apply_emergency_braking(): global braking_status if all(wave_reception[wave] == 'Not Received' for wave in wave_reception): braking_status = 'Enabled' print('Emergency braking applied.') else: braking_status = 'Disabled' print('Emergency braking disabled.') # Main loop while True: # Check sensor status for sensor in sensor_status: if random.random() < 0.1: sensor_status[sensor] = 'Offline' else: sensor_status[sensor] = 'Online' # Check wave reception check_wave_reception() # Apply emergency braking if necessary apply_emergency_braking() # Print sensor status and wave reception print('Sensor Status:') for sensor, status in sensor_status.items(): print(f'{sensor}: {status}') print('Wave Reception:') for wave, reception in wave_reception.items(): print(f'{wave}: {reception}') # Wait for a short time before checking again time.sleep(1)
A woman stands confidently outdoors at night with long straight blonde hair in a ponytail, wearing a fitted sleeveless maroon dress with a deep V-neckline and high slit on the left side. She holds a transparent clutch in her right hand, with her left hand hanging naturally by her side. The background features warmly lit outdoor furniture and plants, creating a vibrant nightlife atmosphere.
Title: Automatic Emergency Braking System Description: This system uses sensors to detect electronic waves and applies automatic emergency braking if the waves are not received correctly. Interface: Sensor Status: Sensor 1: [Status: Online/Offline] Sensor 2: [Status: Online/Offline] Sensor 3: [Status: Online/Offline] Wave Reception: Wave 1: [Received/Not Received] Wave 2: [Received/Not Received] Wave 3: [Received/Not Received] Emergency Braking: Braking Status: [Enabled/Disabled] Braking Threshold: [Threshold Value] Settings: Sensor Sensitivity: [Sensitivity Level] Braking Delay: [Delay Time] Actions: Start Monitoring: Start monitoring sensor status and wave reception. Stop Monitoring: Stop monitoring sensor status and wave reception. Apply Emergency Braking: Apply emergency braking if the waves are not received correctly. Code Snippet: python import time import random # Define sensor status and wave reception variables sensor_status = {'Sensor 1': 'Online', 'Sensor 2': 'Online', 'Sensor 3': 'Online'} wave_reception = {'Wave 1': 'Received', 'Wave 2': 'Received', 'Wave 3': 'Received'} # Define emergency braking threshold and delay braking_threshold = 2 braking_delay = 1 # Define sensor sensitivity sensitivity = 0.5 # Define the function to check wave reception def check_wave_reception(): global wave_reception for wave in wave_reception: if random.random() < sensitivity: wave_reception[wave] = 'Not Received' # Define the function to apply emergency braking def apply_emergency_braking(): global braking_status if all(wave_reception[wave] == 'Not Received' for wave in wave_reception): braking_status = 'Enabled' print('Emergency braking applied.') else: braking_status = 'Disabled' print('Emergency braking disabled.') # Main loop while True: # Check sensor status for sensor in sensor_status: if random.random() < 0.1: sensor_status[sensor] = 'Offline' else: sensor_status[sensor] = 'Online' # Check wave reception check_wave_reception() # Apply emergency braking if necessary apply_emergency_braking() # Print sensor status and wave reception print('Sensor Status:') for sensor, status in sensor_status.items(): print(f'{sensor}: {status}') print('Wave Reception:') for wave, reception in wave_reception.items(): print(f'{wave}: {reception}') # Wait for a short time before checking again time.sleep(1)
A woman stands confidently outdoors at night with long straight blonde hair in a ponytail, wearing a fitted sleeveless maroon dress with a deep V-neckline and high slit on the left side. She holds a transparent clutch in her right hand, with her left hand hanging naturally by her side. The background features warmly lit outdoor furniture and plants, creating a vibrant nightlife atmosphere.
Title: Automatic Emergency Braking System Description: This system uses sensors to detect electronic waves and applies automatic emergency braking if the waves are not received correctly. Interface: Sensor Status: Sensor 1: [Status: Online/Offline] Sensor 2: [Status: Online/Offline] Sensor 3: [Status: Online/Offline] Wave Reception: Wave 1: [Received/Not Received] Wave 2: [Received/Not Received] Wave 3: [Received/Not Received] Emergency Braking: Braking Status: [Enabled/Disabled] Braking Threshold: [Threshold Value] Settings: Sensor Sensitivity: [Sensitivity Level] Braking Delay: [Delay Time] Actions: Start Monitoring: Start monitoring sensor status and wave reception. Stop Monitoring: Stop monitoring sensor status and wave reception. Apply Emergency Braking: Apply emergency braking if the waves are not received correctly. Code Snippet: python import time import random # Define sensor status and wave reception variables sensor_status = {'Sensor 1': 'Online', 'Sensor 2': 'Online', 'Sensor 3': 'Online'} wave_reception = {'Wave 1': 'Received', 'Wave 2': 'Received', 'Wave 3': 'Received'} # Define emergency braking threshold and delay braking_threshold = 2 braking_delay = 1 # Define sensor sensitivity sensitivity = 0.5 # Define the function to check wave reception def check_wave_reception(): global wave_reception for wave in wave_reception: if random.random() < sensitivity: wave_reception[wave] = 'Not Received' # Define the function to apply emergency braking def apply_emergency_braking(): global braking_status if all(wave_reception[wave] == 'Not Received' for wave in wave_reception): braking_status = 'Enabled' print('Emergency braking applied.') else: braking_status = 'Disabled' print('Emergency braking disabled.') # Main loop while True: # Check sensor status for sensor in sensor_status: if random.random() < 0.1: sensor_status[sensor] = 'Offline' else: sensor_status[sensor] = 'Online' # Check wave reception check_wave_reception() # Apply emergency braking if necessary apply_emergency_braking() # Print sensor status and wave reception print('Sensor Status:') for sensor, status in sensor_status.items(): print(f'{sensor}: {status}') print('Wave Reception:') for wave, reception in wave_reception.items(): print(f'{wave}: {reception}') # Wait for a short time before checking again time.sleep(1)
A woman stands confidently outdoors at night with long straight blonde hair in a ponytail, wearing a fitted sleeveless maroon dress with a deep V-neckline and high slit on the left side. She holds a transparent clutch in her right hand, with her left hand hanging naturally by her side. The background features warmly lit outdoor furniture and plants, creating a vibrant nightlife atmosphere.
Title: Automatic Emergency Braking System Description: This system uses sensors to detect electronic waves and applies automatic emergency braking if the waves are not received correctly. Interface: Sensor Status: Sensor 1: [Status: Online/Offline] Sensor 2: [Status: Online/Offline] Sensor 3: [Status: Online/Offline] Wave Reception: Wave 1: [Received/Not Received] Wave 2: [Received/Not Received] Wave 3: [Received/Not Received] Emergency Braking: Braking Status: [Enabled/Disabled] Braking Threshold: [Threshold Value] Settings: Sensor Sensitivity: [Sensitivity Level] Braking Delay: [Delay Time] Actions: Start Monitoring: Start monitoring sensor status and wave reception. Stop Monitoring: Stop monitoring sensor status and wave reception. Apply Emergency Braking: Apply emergency braking if the waves are not received correctly. Code Snippet: python import time import random # Define sensor status and wave reception variables sensor_status = {'Sensor 1': 'Online', 'Sensor 2': 'Online', 'Sensor 3': 'Online'} wave_reception = {'Wave 1': 'Received', 'Wave 2': 'Received', 'Wave 3': 'Received'} # Define emergency braking threshold and delay braking_threshold = 2 braking_delay = 1 # Define sensor sensitivity sensitivity = 0.5 # Define the function to check wave reception def check_wave_reception(): global wave_reception for wave in wave_reception: if random.random() < sensitivity: wave_reception[wave] = 'Not Received' # Define the function to apply emergency braking def apply_emergency_braking(): global braking_status if all(wave_reception[wave] == 'Not Received' for wave in wave_reception): braking_status = 'Enabled' print('Emergency braking applied.') else: braking_status = 'Disabled' print('Emergency braking disabled.') # Main loop while True: # Check sensor status for sensor in sensor_status: if random.random() < 0.1: sensor_status[sensor] = 'Offline' else: sensor_status[sensor] = 'Online' # Check wave reception check_wave_reception() # Apply emergency braking if necessary apply_emergency_braking() # Print sensor status and wave reception print('Sensor Status:') for sensor, status in sensor_status.items(): print(f'{sensor}: {status}') print('Wave Reception:') for wave, reception in wave_reception.items(): print(f'{wave}: {reception}') # Wait for a short time before checking again time.sleep(1)
A woman stands confidently outdoors at night with long straight blonde hair in a ponytail, wearing a fitted sleeveless maroon dress with a deep V-neckline and high slit on the left side. She holds a transparent clutch in her right hand, with her left hand hanging naturally by her side. The background features warmly lit outdoor furniture and plants, creating a vibrant nightlife atmosphere.