Iot Based Smart Baby Monitoring System Miniproject PDF

Summary

This miniproject presents an IoT-based smart baby monitoring system. It details the hardware and software required, the system's design, and its advantages/disadvantages. The system utilizes a microcontroller, sensors, and a mobile app for a real-time monitoring solution.

Full Transcript

VAAGDEVI COLLEGE OF
ENGINEERING
(UGC Autonomous, Accredited by NBA, Accredited by NAAC with “A”)
Bollikunta, Khila Warangal (Mandal), Warangal Urban-506 005 (T.S)

IOT BASED SMART BABY MONITORING SYSTEM
UNDER THE
GUIDANCE OF
MR.K.SHEKHAR
PRESENTED BY
COORDINATORS RAVULA SAI SREEJA 21641A05D6
DR.K.REKHADEVI MURAHARI JAYA KRISHNA 22645A0520 (L)
MR.CH.ARAVIND GUVVA NIKESH GOUD 21641A05F5
KUMAR GUDURI TEJA SRI 21641A05J8

HEAD OF THE
DEPARTMENT
TABLE OF CONTENTS
ABSTRACT
INTRODUCTION
HARDWARE & SOFTWARE REQUIREMENTS
PROPOSED & EXISTING SYSTEM
DATA FLOW DIAGRAMS
LITERATURE REVIEW
PROBLEM STATEMENT
ABSTRACT
The IoT-Based Smart Baby Monitoring System leverages the NodeMCU
ESP8266 microcontroller to enhance infant care through real-time monitoring.
Key features include cry detection via a condenser microphone, temperature
and humidity monitoring with a DHT11 sensor, wetness detection using a water
sensor, motion tracking through a PIR sensor, and rain detection for
environmental alerts. Additionally, a servo motor can gently rock the cradle
based on the baby’s needs. Data is processed and communicated via Firebase,
allowing parents to receive immediate alerts through a mobile app. This
innovative system addresses common childcare challenges, providing safety
and convenience for working parents.
INTRODUCTION
In contemporary society, working mothers face significant challenges in
balancing professional responsibilities with the demands of childcare,
particularly in ensuring their infants' well-being throughout the day.
Traditional daycare options often fall short in meeting the constant monitoring
needs of families, while hiring caregivers can be financially burdensome. In
response to this dilemma, an IoT-based smart baby monitoring system offers a
practical solution by leveraging the transformative capabilities of IoT to connect
and automate devices.
This proposed system features a cradle that automatically swings in response
to the baby's cries, detects wetness to alert caregivers, and monitors body
temperature for early illness detection, all while incorporating motion sensors
for added security.
By providing real-time monitoring and alerts, the system alleviates parental
stress and empowers parents to offer attentive care without sacrificing their
professional or personal commitments, ultimately fostering a nurturing
environment for their infants.
HARDWARE REQUREMENTS
1. MICROCONTROLLER:ESP8266 Node-MCU
2. Water sensor
3. Condenser mic
4. DHT 11 temperature sensor
5. PIR sensor
6. Servo motor
7. Buzzer
8. Baby Cradle
SOFTWARE REQUIREMENTS
ARDUINO IDE SOFTWARE

REQUIRED OPERATED SYSTEMS :
Windows 10 or above
8gb or above RAM
256gb or above memory(ROM)
PROPOSED SYSTEM
The cradle system has five parts to keep the baby safe.
Sound Sensor: Hears the baby cry and rocks the cradle. It also sends a
message to the parent.
Wetness Detector: Checks if the baby is wet and tells the parent.
Temperature Monitor: Measures the baby’s temperature and alerts the
parent if it changes too much.
Motion Detector: Sees if the baby is moving and sends a message to the
parent.
ESP8266: Sends messages to the parent's phone and connects everything.
MERITS:
Real-Time Monitoring
Remote accessibility
Improved Sleep for Baby
User friendly interface
Enhanced Baby Monitoring

DEMERITS:
Privacy Concerns
Cost of Implementation
Limited Functionality
Dependency on technology
DATA FLOW DIAGRAMS:
1. Automatic cradle swing: 2.
Wetness:
3.Temperature: 4.PIR:
LITERATURE REVIEW
Taking care of babies often involves hiring nannies or using childcare centers,
but many parents worry about fraud and inadequate care.
Existing baby cradles usually have limited features that can disturb the baby's
sleep.
Research shows that some systems are noisy, lack essential functions like
automatic swinging, or are too expensive due to complex technology.
Additionally, many cradles do not monitor the baby's or room's temperature,
leaving gaps in care.

PROBLEM STATEMENT
Parents struggle to monitor their babies all the time, especially when
working.Most cradles don’t have automatic features like sound or
temperature monitoring.
Parents may not respond quickly when the baby cries, gets wet, or feels too
hot.Some baby monitoring systems are too expensive or hard to use.
Many systems don’t allow parents to monitor their baby remotely.
EXPECTED OUTPUT
CONCLUSION
In conclusion, the IoT-based smart baby monitoring system represents a
significant advancement in infant care technology, offering a comprehensive
solution for real-time monitoring of babies.
Utilizing the NodeMCU ESP8266 microcontroller, the system integrates various
sensors to detect baby cries, temperature changes, wetness, and motion,
providing timely alerts and automated responses. Despite its advantages in
enhancing monitoring and convenience for parents, the system also faces
limitations, such as reliance on technology and potential false alarms.
Future research can focus on improving sensor accuracy and communication
protocols, as well as adding features for personalized caregiving. Overall, this
innovative system has the potential to revolutionize infant care, providing
caregivers with essential support and peace of mind.