Paralysis Patient Care with IoT-Enabled Health Systems
Introduction
Managing paralysis patients’ care can be challenging for both healthcare providers and families. The IoT-enabled health care project aims to make this task easier by leveraging advanced technologies to facilitate real-time monitoring and communication.
How Does It Work?
This unique system utilizes a microcontroller-based circuitry that incorporates an accelerometer and gyro to recognize hand movements. These movements are then wirelessly transmitted via RF to a receiving system. The information is displayed on an LCD and uploaded to an IoT server, allowing doctors, nurses, or family members to monitor the patient’s status remotely.
Key Features
- Hand Motion Recognition: The accelerometer and gyro capture even the slightest hand movements, ensuring comprehensive tracking.
- Real-Time Monitoring: The receiver processes the hand motion data and updates the IoT server instantly.
- Secure Transmission: Data is encrypted and securely transmitted, ensuring patient privacy.
Hardware and Software Specifications
Hardware Specifications
- Atmega Microcontroller
- Accelerometer & Gyro
- ESP8266 Wifi Module
- RF Tx Rx
Software Specifications
- Arduino Compiler
- MC Programming Language: C
Benefits
- Improved Communication: Enables paralysis patients to communicate their needs more effectively.
- Remote Monitoring: Allows healthcare providers and families to monitor patient health from anywhere.
- Data-Driven Decisions: Helps in making more accurate and timely healthcare decisions based on real-time data.
Future Prospects
The system’s current version has been effective, but there’s scope for further development. Voice recognition and AI algorithms could be incorporated to make the system even more responsive and accurate.
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