Description
Description
A Heart Attack Detection System by Heartbeat Sensing is a technological solution aimed at early detection and intervention of heart-related emergencies. It utilizes sensors and a microcontroller (such as Arduino) to monitor a person's heartbeat in real-time, analyzing patterns and anomalies that could indicate a potential heart attack or cardiac distress.
Key Features of DIY Arduino-Based Ventilator System
1. Heart Rate Monitoring: Continuously monitors the user's heartbeat using sensors.
2. Real-time Analysis: Processes heartbeat data to detect irregularities or patterns indicative of heart attack symptoms.
3. Alert System: Triggers alerts or notifications when abnormal heart rhythms or conditions are detected.
4. Data Logging: Records and stores heart rate data for future analysis or medical consultation.
5. User Interface: Displays current heart rate and alerts on a connected screen or device.
6. Battery Powered: Operates on battery power for portability and continuous monitoring.
7. Compact Design: Lightweight and wearable for ease of use and mobility.
8. Emergency Contact: Integrates with emergency response systems to notify designated contacts or medical services.
Hardware Components
- Radio Frequency transmitter and receiver
- Heartbeat sensor
- Buzzer
- Crystal Oscillator
- LCD display
- Resistors
- Capacitors
- Transistors
- Cables and Connectors
- Diodes
- Breadboards
- LED
- Transformer
- Adapter
- Push Buttons
- Switch
System Operation
1. Heartbeat Sensing: Sensors (such as pulse sensors) attached to the user detect and measure heartbeat.
2. Data Acquisition: Arduino processes the analog signals from the sensors and converts them into digital data.
3. Signal Processing: Analyzes the heart rate data in real-time to identify irregular patterns or abnormalities.
4. Decision Making: Algorithms implemented on Arduino determine if detected patterns indicate a potential heart attack.
5. Alert Generation: If critical conditions are detected, the system triggers alerts via visual indicators, sound alarms, or notifications on connected devices.
6. Response Activation: Alerts can prompt the user to take preventive measures or alert medical professionals for immediate intervention.
Applications
- Personal Health Monitoring: Provides continuous monitoring for individuals at risk of heart conditions.
- Elderly Care: Assists caregivers in monitoring elderly individuals prone to heart-related issues.
- Fitness Tracking: Integrates into fitness devices for real-time health monitoring during physical activities.
- Hospital Settings: Used in hospitals for continuous patient monitoring, especially in critical care units.
- Emergency Response Systems: Integrated into emergency response systems to provide early warnings and alerts.
Benefits
- Early Detection: Enables early intervention in case of potential heart attacks, improving survival rates.
- Continuous Monitoring: Provides round-the-clock monitoring, offering peace of mind to users and caregivers.
- Cost-effective: Utilizes affordable components like Arduino and sensors, making it accessible.
- User-friendly: Simple interface for easy operation and understanding of health metrics.
- Emergency Preparedness: Enhances readiness for emergencies by facilitating quick response.
- Health Data Insights: Generates valuable data for medical professionals to analyze and diagnose.
NOTE: The hardware components are not included, they are purchased separately.
The project fee include:
- Assembling
- Programming
- Testing and Debugging.
- Methodology
- Training.