Transparent Peer Review By Scholar9
Paralysis Patient Health Monitoring System Using Embedded and IoT Technologies
Abstract
In today’s world many people are suffering from physical disabilities due to paralysis or some accidental problem. Most of these patients are dependent on care taker. Paralysis is a condition in which there is an impairment of one or more muscles in body. In order to assist these patients’ microcontroller- based circuitry plays major role in system. Sometime appliances are also controlled by patient’s hand motion. This system also monitors patient’s heartbeat, if it is exceeds normal value then buzzer will be activated and message will be shown on LCD to doctors and caretakers to attend patient.
Chandrasekhara (Samba) Mokkapati Reviewer
11 Sep 2024 05:33 PM
Not Approved
Relevance and Originality
The research article is relevant as it addresses the pressing issue of assisting individuals with paralysis, a condition affecting many people due to accidents or medical issues. The use of microcontroller-based circuitry for controlling appliances and monitoring patient health is original and addresses a significant need in assistive technology. However, the novelty could be enhanced by comparing this approach with existing systems or exploring unique features that distinguish it from current solutions.
Methodology
The methodology involves using microcontroller-based circuitry to assist patients by controlling appliances through hand motion and monitoring vital signs like heartbeat. While the approach is practical and relevant, the description lacks detail on the specific microcontroller used, the design of the circuitry, and how the system integrates with appliances. Providing more information on the technical setup and implementation process would strengthen the methodology.
Validity & Reliability
The system's validity is supported by its practical application in monitoring patients and controlling appliances. However, the reliability of the system is not fully addressed in the summary. Details on how the system handles false alarms, the accuracy of heartbeat monitoring, and the robustness of hand motion control would be essential for assessing reliability. Including test results or user feedback could further validate the system's effectiveness.
Clarity and Structure
The article is clear in presenting the problem of paralysis and the proposed solution using microcontroller-based systems. However, the structure could be improved by detailing how the system operates, including the flow of data from sensors to the microcontroller and the process for activating the buzzer and LCD alerts. A more organized presentation of how each component functions together would enhance clarity.
Result Analysis
The result analysis demonstrates the system's functionality in monitoring vital signs and controlling appliances, which is critical for patient care. However, the analysis lacks specific data or outcomes related to the effectiveness of the system, such as response times, accuracy of heartbeat detection, or user satisfaction. Providing quantitative results and comparisons with existing solutions would strengthen the analysis and illustrate the system's impact more comprehensively.
IJ Publication Publisher
Done Sir
Chandrasekhara (Samba) Mokkapati Reviewer