2. Outlines
Introduction.
Block diagram of the project.
Basic working principle.
How to program IC.
Monitoring.
Conclusion.
3. Introduction
Health monitoring systems become a hot topic and
important research field today. Research on the
monitoring were developed for many applications such
as military, homecare unit, hospital, sports training
and emergency monitoring system…etc
In this work we using wireless communications
technology to transmit the information from the
device to base station which is connected to computer
6. Basic working principles
Arduino Microcontroller.
Temperature Sensor(NTC).
Heartbeat Sensor.
Galvanic Skin Response Sensor.
Radio Communication Xbee.
7. Arduino Microcontroller is a
family of single-board
microcontrollers, intended to make
it easy to build interactive objects or
environments.
Arduino Nano is a microcontroller
board which is a very small,
complete, It lacks only a DC power
supply, and works with a Mini-B USB
cable instead of a standard one.
8. Temperature Sensor (NTC ): This semi-conducting
material reacts as an NTC resistor, whose resistance
decreases with increasing temperature.
NTC thermistors are thermally sensitive resistors
made from a mixture of (Mn, Ni, Co, Cu, Fe oxides).
9. heartbeat sensor:is a simple device that takes a
sample of the heartbeat signal and computes the bpm
so that the information can easily be used to track
heart conditions.
Heart rate is the number of heartbeats per unit of
time, typically expressed as beats per minute (bpm).
10. Galvanic Skin Response Sensor: refers to the recorded
electrical resistance between two electrodes when a
very weak current is steadily passed between them.
The electrodes are normally placed about an inch
apart, and the resistance recorded varies according to
the emotional state of the subject.
11. Radio Communication Xbee:is a modules are
embedded solutions providing wireless end-
point connectivity to devices.
It operates at 2.4 GHz. The XBee modules have
sleep modes for extended battery life
12. How to program IC
Here the physiological conditions of the patient's are
monitored by sensors and the output of these sensors is
transmitted via Zigbee and the measured signal has to be
sent to the Personal Computer (PC).
14. Conclusion
this device (integrated with modern technology) have
been initiated to help in regularizing the health
condition of most individuals by keeping track of their
heartbeat rate condition as well as a constant
monitoring of their body temperature.
Most systems designed to operate in specific clinical
applications,to save life of patients.
