2. I would like to acknowledge all my staff
for their constant support and help.
I pay my gratitude to Academic
Writing course which taught me how to
write a research article and how to publish
an article without plagiarism and also about
the digital writing.
I thank my parents, friends and god.
ACKNOWLEDGEMENT
4. The course aims to introduce the learners to
the key concepts involved in composite filter
and how to design composite filter.
The learner is also introduced to targeted
and programmable delivery concepts.
COURSE OBJECTIVE
6. LITERATURE SURVEY
S.NO TITLE / YEAR AUTHOR ADVANTAGE &
DISADVANTAGE
1 Wired health monitoring
system-“INTERNATIONAL
JOURNAL OF SCIENCE AND
RESEARCH 2014”
Mrunali,M.Lambat,
Santosh C.wagaj
Uncomfortable to
Patients,Size and
cost are more.
2 An Intelligent Patient
Monitoring System Using
Android Technology-
“INTERNATIONAL
JOURNAL OF RESEARCH IN
ENGINEERING AND
Anbumani.S,
Premkumar.R
It decreases with
an increases in
number of uses
joining the
network.
7. S.No TITLE / YEAR AUTHOR ADVANTAGE&
DISADVANTAGE
3 Bluetooth Based Patient
Monitoring System-
“INTERNATIONAL JOURNAL
OF SCIENCE AND
TECHNOLOGY 2014”
Yusuf Perwej,
U.Jaleel, Dr.K.Haq
It is available in
cheap cost.It also
has low power
consumption. Slow
data speed and poor
data security
4 A Remote health monitoring
system for elderly based on smart
home gateway- “JOURNAL OF
HEALTHCARE ENGINEERING
VOLUME 2017”
Kai Guan,
Minggang shao,
and Shuixai wu
It reduces the risk
of Theft & loss. It is
conveninent. But it
have many
limitations,and it is
highly depend on
internet
connectivity
8. EXISTING SYSTEM
The Existing systems has cables and wires to measure
health related parameters which is very
uncomfortable for patients.
It increases the complexity incase of emergencies .
Wireless communication such as LAN/WAN are used
with long distance but data are not secured and large
amount of energy is consumed .
9. PROPOSED SYSTEM
In proposed system WBAN is proposed based on the requirement of
remote medical treatment. It consists of two types of sensors called
invasive sensors and wearable sensors (non-invasive) on a body can
monitor physiological states.
The transmitter unit has sensor to measure the physical condition of
patient.
These sensors send the collected data to the Microcontroller and
after that through UART to Red Tacton. The monitoring unit use
the LCD Display to Display the condition of patient.
10. Each WBAN consists of an android mobile node collecting live data
from on-body Shimmer.
Sensors record and transmit their data to monitoring devices.
The data is transferred from one central link sensor to a hospital
access point and can be analyzed on personal monitoring devices or
stored in the patient’s electronic record.
11. RED-TACTON
• RED - a warm color to emphasis warm and cordial
communications.
• TACTON - Action triggered by Touching
• It is a new Human Area networking technology which uses
the surface of the human body as a safe high speed network
transmission path.
• Red tacton transceiver electrodes are covered with an
insulating flim so there is no way that current from red tacton
can flow into the users body .
• Using a red tacton device,the human body effectively becomes
an Ethernet cable.
• Human body use its electrical field to connect to networks or
the internet.
12. • “It is similar to a wireless
network connection,but it
is not.It is a physical
connection” ,the person.
• The connection is more
secure and does not slow
down if many people are
using the same
connection.
15. HARDWARES
ARDUINO
Arduino is an open-source
platform used for building
electronics projects.
Arduino consists of both a
physical programmable circuit
board(microcontroller)
and a piece of software or IDE.
16. UART
UART is usually an a part of integrated circuit used for serial
communication over a computer or peripheral device serial port
ETHERNET SHIELD
The Arduino ethernet shield allows an Arduino board to connect to the
internet.
It is based on the Wiznet W5100 ethernet chip.
LCD
LCDs are used for display of numeric and alphanumeric characters
in Dot matrix and segmental displays.
17. SENSORS
HEART BEAT SENSOR:
Heart beat sensor is designed to give digital output of heart beat when a
finger is placed on it.
It works on the principle of light modulation by blood flow through finger
at each pulse.
TEMPERATURE SENSOR:[-55C to +150C]
The LM35 series are precision integrated-circuit temperature sensor, whose
output voltage is linearly propotional to the Celsius temperature.
The LM35 thus has an advantage over linear temperature sensor calibrated
in kevin, as the user is not required to subtract a large constant voltage from
its output to obtain convenient centigrade scaling
18. SPO2 SENSOR:
SPO2 stands for peripheral capillary oxygen saturation, an estimation
of the amount of oxygen in the blood.
It works by emitting and then absorbing a light wave passing through
a blood vessels in the fingertip.
GSR SENSOR:
The combined changes between electro dermal resistance and electro
dermal potential make up electrodermal activity.
Galvanic skin resistance (GSR) 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.
19. SOFTWARE
ARDUINO IDE
The Arduino integrated
development environment is used
to write codes,upload
codes and run codes in computer.
OUTPUT
22. RESULT
Normal heart beat rate - (60-100)
Normal blood glucose level-(70-99mg/dl)BM,(less than 140 mg/dl)AM
Normal temperature level -(36.1C- 37.2C)
23. CONCLUSION
Patient monitoring system is implemented using RED-TACTON, the
system principally monitors medical parameters such as heart beat rate,
temperature, blood glucose level and electro dermal activity by using heart
rate sensor, LM35sensor, SPO2 sensor, GSR sensor.
The medical details are transfer only when the transceiver get into a
physical connection (touch).The designed System is more comfortable for
patient and reduce manpower.
In this technology the data transfer is more secured and less amount of
energy consumed.
Red-Tacton technology brings new dimension of communication and put
an end to the use of cables. It can provide seamless service whenever and
whoever uses it.
24. REFERENCE
• Yuichi kado, Mitsuru Shinagawa, “Red Tacton Near body electric-field
communication tehnology and its application” NTT Technical review vol
8,N0.3 2010..
• Kohei Nagata, Yuichi Kado, “Transmission characteristics between In-body
and On-body Transceivers using MHz-band Near-field Coupling
Technology” , IEEE, 7th International Symposium on Medical Information
and Communication Tehnology (ISMICT)2013
• E.Beanlan, L.C.Main, B.Aisbett, P.Gastin, and K.Netto, “Validation of
GPS and accelerometer technology in swimming,” Journal of Science and
Medicine in sport, vol. 17, no.2, pp.234-238,2014.
• N.Ahire.Smart Wheelchair by using EMG and EOG, “International journal
of research in computer Engg&Electron..,3(5),2014.