HEART RATE MONITOR INTRODUCED WITH WIFI USING IOT:
-On the onset of new innovation and technology in today’s world we apply technology to facilitate our day today activities.
It has become a basic element in the medical field and has played a significant part in the ever evolving field of medical field.
-IR sensor circuit is used to access the blood flow based on light refection to determine the heart rate pulse and is then transmitted through a WIFI circuit and is received by the receiver. The pulse is then computed using AT89S51 IC with embedded C programming to display the output on a LCD screen
NEURO DISORDER FUSED WITH THIS CONCEPT
-Neurological disorders are frequently associated with ECG and structural cardiac changes with various clinical manifestations.
A series of complex interaction exists between the nervous and cardiovascular systems.
-In this abstract we first review the signals received from a persons cardiac movement and is later amplified using an operational amplifier (LM324) and is transmitted using a WIFI RX 433 which at first encodes and later decodes the received signals and this signal is indicated with a help of a led and is later converted to digital format using an embedded C programming chip (IC AT89S) .These signals are visualized and are monitored and later analyzed under the Neurological circumstances.
-In the First Phase the movement of blood flow in our finger nodes are received and are transmitted using photodiodes(IR SENSORS) later then amplified using an operational amplifier(LM324). Soon the signal is transferred which at first encodes and later decodes using a decoder(HD12D). These signals are converted to a digital format using an embedded C programming chip(ICAT89S51) and is displayed in the console.
-In the Second phase Sugar level, Oxygen level monitor are integrated with the system which are core factors to analyze the neurological disorders using AIML tech to analyze, store a patients details.
From the time the idea behind the concept had been generated till the time it is implemented into a Real World application was a huge challenge for us to research behind the scope, train ourselves with modern technologies and put our efforts to create this hardware working prototype.
SOME OF THEM...
--Conversion of power supply.
--To maintain a constant 5V supply throughout the process.
--Managing with signals while storing and tranferring them from phase to another.
--Conversions of the signals to digital format using Embedded C programming chip.
--Working and processing with AI.
--Working more on Heart Rate Value (HRV) Algorithms and other Regression techniques.
--Carrying out the static voltage throughout the process for better process.
--Use of RF cards to store patients details.
Discussion