Authors :
M. Sai Prasad Reddy; K. Likhitha; G. Mithali Karan; D. Harsha Vardhan; M. Madhu Priya
Volume/Issue :
Volume 9 - 2024, Issue 4 - April
Google Scholar :
https://tinyurl.com/bdeedjzf
Scribd :
https://tinyurl.com/yc89f2vf
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24APR1666
Note : A published paper may take 4-5 working days from the publication date to appear in PlumX Metrics, Semantic Scholar, and ResearchGate.
Abstract :
Innovative medical gadgets are now critically
needed to monitor and analyze the situation, especially in
light of the COVID-19 pandemic. In light of this, a
portable, affordable, IOT-based heart rate and
SpO2/level sensor device with effective performance has
been developed. In order to publish data to a software
web page and display data on the OLED, the suggested
system has an integrated LED with basic internet access.
Its mobility, user-friendliness, and distinctive method of
sending collected data are its key qualities. data online,
enabling it to perform better than the solutions that are
currently on offer in a number of ways. The project is
designed in such a way that the analogue quantities which
are to be recorded continuously are taken and converted
into corresponding digital values using a six-channel
ADC. Here we consider temperature and monitor the
heart rate. The processed data from ADC is sent to the
microcontroller. With the help of a six-channel ADC, the
project's architecture transforms the analogue numbers
that must be continuously recorded into equivalent digital
values. Here, we keep an eye on the heart rate and take
the temperature into account. The microcontroller
receives the data from the ADC that has been processed.
The microcontroller is designed to continuously monitor
the status of the sensors. To transfer sensor data to the
server web page in the form of a database, the
microcontroller and the Wifi Module will be interfaced
using serial connection. Monitoring physiological data,
such as electrocardiogram (ECG) signals, offers a new
avenue for ease of control and prevention in modern
healthcare. Consequently, a new era of proactive,
intelligent healthcare would emerge—especially
considering the major barrier of scarce medical
resources. It was shown how to use a mobile ECG
monitoring service hosted in the cloud. With the use of a
pulse oximeter and a wireless transmission method like
WI-FI, these may identify ECG signals and display them
on a screen. IOT based on ECG monitoring has been the
subject of various works.
Keywords :
Patient Monitoring, IOT Based, SpO2, OLED.
Innovative medical gadgets are now critically
needed to monitor and analyze the situation, especially in
light of the COVID-19 pandemic. In light of this, a
portable, affordable, IOT-based heart rate and
SpO2/level sensor device with effective performance has
been developed. In order to publish data to a software
web page and display data on the OLED, the suggested
system has an integrated LED with basic internet access.
Its mobility, user-friendliness, and distinctive method of
sending collected data are its key qualities. data online,
enabling it to perform better than the solutions that are
currently on offer in a number of ways. The project is
designed in such a way that the analogue quantities which
are to be recorded continuously are taken and converted
into corresponding digital values using a six-channel
ADC. Here we consider temperature and monitor the
heart rate. The processed data from ADC is sent to the
microcontroller. With the help of a six-channel ADC, the
project's architecture transforms the analogue numbers
that must be continuously recorded into equivalent digital
values. Here, we keep an eye on the heart rate and take
the temperature into account. The microcontroller
receives the data from the ADC that has been processed.
The microcontroller is designed to continuously monitor
the status of the sensors. To transfer sensor data to the
server web page in the form of a database, the
microcontroller and the Wifi Module will be interfaced
using serial connection. Monitoring physiological data,
such as electrocardiogram (ECG) signals, offers a new
avenue for ease of control and prevention in modern
healthcare. Consequently, a new era of proactive,
intelligent healthcare would emerge—especially
considering the major barrier of scarce medical
resources. It was shown how to use a mobile ECG
monitoring service hosted in the cloud. With the use of a
pulse oximeter and a wireless transmission method like
WI-FI, these may identify ECG signals and display them
on a screen. IOT based on ECG monitoring has been the
subject of various works.
Keywords :
Patient Monitoring, IOT Based, SpO2, OLED.
