1. SHREE SIDDHESHWAR WOMENS
COLLEGE OF ENGINEERING,SOLAPUR
Academic Year 2021-22
F.Y. B.Tech.
Seminar On:
Internet Of Things (IoT)
Presented By :
Vaishnavi Parchande (137)
Ahiba Pathan (139)
Guided By:
Dr. Yogita Datar
2. Title
1. Introduction
2. Historical background
3. Principle of working
4. Advantages & disadvantages
5. Applications
6. Future scope
7. References
TABLE OF CONTENTS
3. • DEFINATION -
It is a system of interrelated computing devices, digital
machines, objects, animals or people that ARE PROVIDED
WITH UNIQUE IDENTIFIERS and the ability to TRANSFER
DATA over a network without requiring human or human to
computer interaction
• EXAMPLES -
INTRODUCTION
SMART security
system
SMART
toothbrush
SMART smoke
alarm
4. - The thought of internet of things first became popular in 1999. British
entrepreneur Kevin Ashton first used the term internet of things at
that time, while working at auto-ID labs, besides that near field
communication, barcode scanners, QR code scanners and digital
watermarking are the various devices which are working on IoT in the
present scenario.
- In March 2021, John Paul Farmer, CTO of New York, published a
document titled “the New York City internet of things strategy.
HISTORICAL BACKGROUND
Kevin Ashton
5. PRINCIPAL OF WORKING
1) Sensors/Devices
Sensors or devices are a key component
that helps you to collect live data from
the surrounding environment.
All this data may have various levels
of complexities.
It could be a simple temperature monitoring
sensor, or it may be in the form of the video
feed.
2)Connectivity
All the collected data is sent to a cloud
infrastructure.
The sensors should be connected to the
cloud using various mediums of
communications.
These communication mediums include
mobile or satellite networks, Bluetooth,
WI-FI, WAN, etc.
6. PRINCIPAL OF WORKING
3)Data processing
Once that data is collected, and it
gets to the cloud, the software performs
processing on the gathered data.
This process can be just checking the
temperature, reading on devices like
AC or heaters.
However, it can sometimes also be very
complex like identifying objects, using
computer vision on video
4)User interference
The informationneeds to be available
to the end-user in some way which can
be achieved by triggering alarms on
their phones or sending them notification
through email or text message.
interface which actively checks theirIoT
system.
7. • Ability to access information from
anywhere at any time on any device;
• Improved communication between
connected electronic devices;
• Transferring data packets over a
connected network saving time and
money.
• Automating tasks helping to improve the
quality of a business's services and
reducing the need for human
intervention.
ADVANTAGES
8. 1. As the number of connected devices
increases and more information is
shared between devices, the potential
that a hacker could steal confidential
information also increases.
2. Enterprises may eventually have to deal
with massive numbers -- maybe even
millions -- of IoT devices, and collecting
and managing the data from all those
devices will be challenging.
3. If there's a bug in the system, it's likely
that every connected device will become
corrupted.
DISADVANTAGES
9. 1)Smart thermostats
A smart thermostat, also known as a
connected or communicating device that
allows you to create automatic and
programmable temperature settings
based on daily schedules, weather conditions,
cooling needs
2)Connected cars
The connected vehicle mobility apps will help
driver to navigate the roads more efficiently,
as well as help system operators improve the
operation of our nation’s transportation
system, reducing travel delay and our overall
mobility.
3)Activity trackers
An activity tracker also known as a fitness
tracker, is a IoT device for monitoring or
tracking fitness related metrices such as
distance walked or run, calorie consumption
and in some cases heartbeat. It is a type of
wearable computer.
APPLICATIONS
10. AUTOMOBILE INDUSTRY AGRICULTURE HEALTHCARE
MILITARY SMART CITY
Our future success is directly proportional to our ability
To understand, adopt and integrate new technology
Into our work – Sukant Ratnakar
FUTURE SCOPE