to build the prototype of a smart incubator to monitor the vital parameters of the newborns in their neonatal period (First 4 weeks after birth). The smart incubator is capable of monitoring the baby’s body temperature and other vital parameters required by the doctor for examining the newborn. The incubator is based on IoT and other edge computing techniques

1. External
BANNARI AMMAN INSTITUTE OF TECHNOLOGY
SMART INCUBATOR FOR INFANT MONITORING
**Guide details**
Name: Mrs.B.T.Annaporani
Designation: Assistant professor(level I)
Dept: ECE
S8 Project work II – First Review – (28-01-2023)
S8 PROJECT WORK II – First review
Name: VISHAL T
Reg. No: 191EI184
Dept: EIE
**Team details**
Name: KAVI VARADHA SASHANK MP
Reg. No: 191EI139
Dept: EIE
Name: NITHISHKUMAR K
Reg. No: 191EI150
Dept: EIE

2. Objective
• The objective of the project is to build the prototype of a smart
incubator to monitor the vital parameters of the newborns in their
neonatal period (First 4 weeks after birth). The smart incubator is
capable of monitoring the baby’s body temperature and other vital
parameters required by the doctor for examining the newborn. The
incubator is based on IoT and other edge computing techniques.

3. Problem Statement
• Nowadays, because of modern culture and other related activities babies are born
prematurely from mothers womb.
• The prematured babies need intense care and warmth. Otherwise the prematured new
borns are prone to several infections pertaining in the environment.
• To overcome this problem, incubators are used to give artificial environment replicating
the mother’s womb for the baby.
• In order to monitor the health parameters of the neonatal in efficient manner, we have
proposed a smart incubator by integrating it with IoT.

4. Proposed Work
• The proposed smart incubator system will monitor the health index of babies and
facilitate taking care of their health. So efficient medical services could be provided at
appropriate time.
• Temperature sensor, Moisture sensor and gyro sensor are interfaced with controller in
order to detect the room temperature, baby moisture level and body movement.
• If the room’s temperature exceeded a certain temperature, then the NodeMCU switches
on the relay connected to the mini fan to lower the temperature and cool the baby, as
well as prevent overheating.

5. Proposed Work
• Gyro sensor used to detect movement of baby and alerts the care taker through
buzzer and heater is included to maintain the humidity condition to normal
which is sensed by humidity sensor.
• When the moisture sensor detects bed wet condition, an alert will be sent to the
parent for diaper change. Furthermore, the Monitored parameters are updated
to the IoT.
• The arduino Uno microcontroller is used for controlling overall system.
• This system uses LCD for displaying monitored parameters.

6. Proposed Block Diagram
ARDUINO UNO
TEMPERATURE
SENSOR
MOISTURE
SENSOR
POWER
SUPPLY
IOT
LCD
BUZZER
SER
VER
GYRO SENSOR
FAN
HUMIDITY
SENSOR
HEATER

7. Advantage
• The proposed smart baby monitoring system is cost effective and
indulges in higher security along with different aspects.

8. Literature Survey
S7 PROJECT WORK I – FIRST REVIEW
S.N
o
TITLE AUTHOR DESCRIPTION
1 Fog Computing in Healthcare
Internet of Things: A Case
Study on ECG Feature
Extraction
Tuan Nguyen Gia,
Mingzhe Jiang
based on IoT is to monitor humans health in real-
time using ubiquitous health monitoring systems
which have the ability to acquire bio-signals from
sensor nodes and send the data to the gateway via a
particular wireless communication protocol.
Electrocardiogram (ECG) feature extraction as the
case study as it plays an important role in diagnosis
of many cardiac diseases
2 A Remote Patient Monitoring
System for Congestive Heart
Failure
Myung-kyung Suh
& Chien-An Chen
This paper describes WANDA (Weight and Activity
with Blood Pressure Monitoring System); a study that
leverages sensor technologies and wireless
communications to monitor the health related
measurements of patients with t Congestive heart
failure(CHF)

9. Literature Survey
S7 PROJECT WORK I – FIRST REVIEW
S.No TITLE AUTHOR DESCRIPTION
3 A Health-IoT Platform
Based on the Integration
of Intelligent Packaging,
Unobtrusive Bio-Sensor
and Intelligent Medicine
Box
Geng Yang, Li Xie It presents an IoT-based intelligent home-centric healthcare
platform (iHome system), which seamlessly connects smart
sensors attached to human body for physiological
monitoring and intelligent pharmaceutical packaging for
daily medication management.
4 Interconnection
Framework for mHealth
and Remote Monitoring
Based on the Internet of
Things
Antonio J. Jara this work presents an interconnection framework for
mobile Health (mHealth) based on the Internet of Things. It
makes continuous and remote vital sign monitoring feasible
and introduces technological innovations for empowering
health monitors and patient devices with Internet
capabilities. It also allows patient monitoring and
supervision by remote centers, and personal platforms such
as tablets. In terms of hardware it offers a gateway and a
personal clinical device used for the wireless transmission
of continuous vital signs through 6LoWPAN, and patient
identification through RFID.

10. Conclusion
• Broadening of technology has been swiftly surged. As technology is being evolved largely it can have a bigger
contribution to the society in numerous approaches. An automated crib can be used conveniently by the
working parents/guardians who are occupied with lots of work load and along with that they have the
responsibility of an infant to care of.
• Baby monitoring system persuades the baby’s safety and security within the automated crib. The health of the
infant is the highest priority of the parents always. Hence this baby monitoring cradle system is designed with
the intention of a healthy infant/baby. Along with this the automatic baby cradle monitor will allow the
professional parent/guardian to perform household chores alongside supervising the infant/baby hand in
hand.
S7 PROJECT WORK I – First review

11. THANK YOU