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INTERNET-OF-THINGS (IOT) Dr. Pankaj Pathak
 No Cars No Inventory No Real Estate

2
 DIGITAL TRANSFORMATION
❑Digital Transformation?
❑Today there are more smart devices than there
are people:
 Many people are connected to the Internet 24 hours a day.
 By 2025 each consumer will have 6.58 smart devices.

❑Modern digital networks make all of this possible
❑Digital transformation is the application of digital
technology to provide the stage for business and
industry to innovate.
THE IMPACT OF DIGITAL TRANSFORMATION
 KEY TRENDS IN DIGITAL TRANSFORMATION BY TECHNOLOGY
Key
Trend Key Players
Technologies
Artificial Intelligence (AI) has been the Alphabet Inc.(Google), Apple Inc.,
fastest growing technology in recent past. Microsoft Corp, IBM, Nvidia Corp. and

Artificial Intelligence Amazon

Market for 5G network is expected to AT&T Inc., Verizon Communications Inc.,
revolutionize the domain of various Cisco Systems Inc., ZTE Corp.
broadband services and empower Samsung Electronics Co. Ltd.,
5G Network
connectivity across end-user verticals Telefonaktiebolaget L M Ericsson
Nokia Networks, Huawei Technologies
Co. Ltd.
Market for IoT is expected to grow at a IBM Corporation, Microsoft Corporation,
positive rate adding fuel to the next Intel Corporation, Cisco Systems, Inc.,
Internet of Things (IoT) industrial revolution of intelligent and Google Inc
connectivity

Cloud computing will continue to be an key Amazon Web Services, Microsoft Azure,
target for enterprises looking for increased Google Cloud Platform, IBM, Dell
Cloud Computing scalability, business continuity and cost Technologies, Hewlett-Packard
efficiency in near future. Enterprise, Vmware, Salesforce, Adobe
 KEY INDUSTRIES DRIVING DIGITAL TRANSFORMATION
MARKET
Healthcare Education Banking, Financial Services &
Insurance

Digital transformation brings revolution in Digital transformation in the education COVID-19 not only accelerated digital
the healthcare industry. industry has picked a new momentum. adoption, but also been a litmus test for
banks’ digital infrastructures.
Opportunities Opportunities
✓Need for automation of patient and staff- ✓Growing trend of digitalized classroom Opportunities
related big data
✓Demand for video based learning ✓Increasing adoption of smart devices
✓Growing trend for tele consultation
✓Increasing popularity of EdTech Firms ✓Growing digital payments
✓Focus on business continuity by ✓Rise of digital currencies trend
facilitating remote care ✓Growing demand for smart devices for
better learning experience ✓Use of big data tools to analyze a large
✓Demand for quick diagnosis and faster
amount of financial data
treatment and focus towards patient care
with zero human error ✓Increasing investment in fintech

Challenges
Challenges
✓Resistance to change Challenges ✓Complex infrastructures and difficult
✓Budget constraints ✓Resistance to change across educational system integration of legacy systems and
✓Governance institutions new technology
✓Lack of digital skills ✓Lack of skill, knowledge, and personnel ✓Lack of qualified personnel to manage
✓Budget limits digital transformations
✓Inadequate network infrastructure ✓Increased costs for equipment and
services
 KEY INDUSTRIES CONTINUED…
Retail Automotive Media Entertainment

Post pandemic outbreak, the global retail Rapid digitization is transforming hardware- Media and entertainment industry is going
industry is undergoing a rapid driven automotive sector to a software & through a major transformation.
transformation. solutions-focused industry.
Opportunities
Opportunities Opportunities ✓Rise of the subscription economy
✓Increasing number of smartphone users ✓Focus on electric vehicles, new mobility ✓Growing demand for Subscription-based
to access internet services, multi-modality, artificial VoD services
✓Rising m-commerce in e-tail industry intelligence, and autonomous vehicles ✓Increase in smart devices, Internet
✓Rise of omnichannel retail ✓Robust technology investments from penetration and craze for social media
automotive companies makes the content available anywhere,
anytime
Challenges
Challenges ✓Growing trend of live streaming
✓Concern about new cybersecurity risks
✓Budget/resource constraints ✓Adoption of digital technology without
compromising safety and security Challenge
✓Legacy technology interoperability
✓Government regulations ✓Companies need to mitigate cyber risks
✓Intense competition
✓Changing consumer preference ✓Battle for best content
✓Changing user expectation
UNDERSTANDING DIGITAL CLIENT AND ADOPTING NEW STRATEGIES

It's the customer who is in the driver’s seat. The
digital technology has transformed consumer B2B sales teams need to replace cold
habits. calling with social selling.
Using social media platforms to tap customers and build
a relationship through sharing relevant content and
expertise as part of a solution to problem.
✓ Smart electronic devices, digital apps, and
automation has enabled the customers to
get what they want at the moment they Marketing teams need to reduce
need it. spending on offline marketing activities
Focusing on digital channels and implementation
✓ The digital wave have caused a shift of search engine marketing, account-based
marketing and email marketing strategies
in customer expectations, resulting a modern
buyer who is constantly connected, app-
native, and aware of the digital revolution.
Customer service teams needs to be
✓ Owing to the opportunities that rise from proactive in the way to help customers
modern technology usage, customers rate Social media, reviews sites, forums, and
organizations on the basis of digital communities are all now part of the customer
service eco-system.
experience first.
DIGITAL TRANSFORMATION MARKET BY GEOGRAPHY
North America region is expected to dominate the global digital transformation market in
near future
Market share by region Major factors attributing to the growth include the growing demand for digital transformation
solutions across various industries, Increasing internet penetration, and the rapid adoption of
online payment modes. Additionally, presence of key players in the region such as Microsoft
Corp., IBM Corp., and Google amongst others is the factor that accounts for the large market
Others, share.

8.10% Europe region is expected to witness a steady growth

United Key growth driver is implementation of digital solutions gaining momentum across various
industries, including healthcare, BFSI, manufacturing, automotive, media & entertainment, and
States, retail, among others. However, an increasing number of cyber-attacks, security breached, and
34.30% growing privacy concerns might slow down the growth of Europe digital transformation market

Asia Asia Pacific region is expected to grow at faster pace
Pacific,
The region to witness rapid technological developments, increasing awareness about benefits of
36.80% the cloud are the key factors that will push small and medium businesses to adopt digitization.
Additionally, this trend of digital transformation is expected to increase the region's market share.

Developing nations: Business Hotspots

Promising digitization initiatives by government in developing countries might add to
Europe, growth of global digital transformation market
20.80% ✓ Government of India’s digital initiatives such as AADHAAR (citizen identification program),
Digital payments (BHIM), and direct benefit transfer (DBT), e-health, e-education (SWAYAM),
digital farming, and digitization of internal law enforcement agencies and other smart
initiatives will continue to promote a robust growth in digital transformation.

United States Europe Asia Pacific Others ✓ The Singapore government is providing platforms for co-creation access to more than 3,000
government datasets and released more than 110 smartphone applications for its citizens.
FOCUS POINTS BEFORE TAKING A MOVE

Understand
Identify your Gauge where
competitive
relative you can gain Prioritize
gaps and
strengths and a competitive Investments
threats to
weakness advantage
your business
INTERNET-OF-THINGS VISION & GROWTH
INDUSTRY 1.0 TO INDUSTRY 5.0
 INTERNET OF THINGS
System of interrelated computing devices, objects, animals and people
Providing with UIDS
Ability to transfer data over the network
Things can be
✓ Person with heart monitor implant
✓Animal with biochip transponder
✓Automobile with built-in sensors
✓Any object that can be assigned an IP address and which able to
transfer data
✓IoT can give a “brain” and “voice” to any object to collect and
exchange information.
 Why IoT Now?
There are three main reasons:
▪ Lower (and falling) technology prices
▪ Advanced connectivity
▪ Advanced analytics
APPLICATIONS
IOT APPLICATIONS
 APPLICATIONS
Smart Home Automation
Smart Buildings
Industrial IoT and Smart Factories
Smart Cities
Smart Grid
Smart Cars
Stores and Services
Medical Diagnosis and Surgery
Aircraft Auto-Pilot
 BENEFITS OF IOT
Data Collection and Insights
Automation and Efficiency
Improved Decision Making
Enhanced Customer Experience
Predictive Maintenance and Asset Management
Safety and Security
Remote Monitoring and Control
 THE INTERNET OF THINGS PARTNER
ECOSYSTEM
Refers to the collaborative network of
organizations, companies, and individuals that work together to create, deliver, and
support IoT solutions.
It involves various stakeholders who bring their expertise, resources, and capabilities to
enable the development and implementation of IoT projects.
key players
Device and Sensor Manufacturers:
Connectivity Providers:
IoT Platform Providers:
System Integrators:
Cloud Service Providers:
Data Analytics and Service Providers:
Application Developers:
Security Providers:
Industry-Specific Partners
COMPONENTS OF IoT

Smart systems and IoT are
driven by
1. Sensors/Actuators
2. Connectivity
3. Processors
4. User Interface
CHARACTERISTICS OF IOT DEVICES
▪ Self Adapting (ex. Surveillance
camera)
▪Interoperable communication protocol
▪Unique identity
▪Integrated to information network
IOT DEVICE EXAMPLES
A home automation device that allows remotely monitoring the
status of appliances and controlling the appliances.
An industrial machine which sends information about its
operation and health monitoring data to a server.
A car which sends information about its location to a cloud-
based service.
A wireless-enabled wearable device that measures data
about a person such as the number of steps walked and sends
the data to a cloud-based service.
INTERNET-OF-THINGS (IOT) COMPONENTS
Physical object (“thing”)
+
Controller (Brain)
+
Sensors
+
Actuators
+
Networks (Internet)
INTERNET-OF-THINGS (IOT)
 PHYSICAL DESIGN OF IOT
The "Things" in IoT usually refers to IoT devices which have unique
identities and can perform remote sensing, actuating and monitoring
capabilities.
IoT devices can:
 Exchange data with other connected devices and applications (directly or indirectly), or
Collect data from other devices and process the data locally or
Send the data to centralized servers or cloud-based application back-ends for processing the
data, or
Perform some tasks locally and other tasks within the IoT infrastructure, based on temporal and
space constraints

IOT Protocol- how the data is sent physically over the network layer
LOGICAL DESIGN OF IOT
Logical design of an IoT system
refers to an abstract representation
of the entities and processes
without going into the low-level
specifics of the implementation.
An IoT system comprises of a
number of functional blocks that
provide the system the capabilities
for identification, sensing, actuation,
communication, and management.
ENABLING TECHNOLOGIES FOR IOT
WSN

⚫ Wireless sensor network (WSN) refers to a group of
spatially dispersed and dedicated sensors
⚫ These are similar to wireless ad hoc networks in the
sense that they rely on wireless connectivity and
spontaneous formation of networks
⚫ The WSN is built of "nodes" – from a few to several
hundreds or even thousands, where each node is
connected to one (or sometimes several) sensors.
Elements of WSN

⚫ A typical wireless sensor network can be divided into two
elements. They are:
⚫ Sensor Node
⚫ Network Architecture
 Sensor Node

⚫ A Sensor Node in a WSN consists of four basic components. They are:
⚫ Power Supply
⚫ Sensor
⚫ Processing Unit
⚫ Communication System
Network Architecture

⚫ Networking of these sensor node is very important.
⚫ A sensor node in a WSN not only communicates with other sensor nodes but also with
a Base Station (BS) using wireless communication.
⚫ a base station performs simple data processing and sends the updated information to
the user using internet.
Communication architecture

⚫ Single-hop
⚫ Multi-hop
How ad hoc sensor networks operate

⚫ work in a cluster
– For the tiny sensors to coordinate among themselves to
achieve a large sensing task in a less power consumption
– Each cluster assigns a cluster head to manage its sensors.
⚫ advantages：
– Clustering allows sensors to efficiently coordinate their local interactions in
order to achieve global goals;
– Scalability;
– More efficient resource utilization;
– Lower energy consumption; and
– Robust link
VANET

Roadside
base station

Emergency
event

Inter-vehicle
communications

Vehicle-to-roadside
communications
VANETs Communication modes

– Vehicle-to-Vehicle (V2V) among vehicles
– Vehicle-to-Infrastructure (V2I), between vehicles and Road-Side Units (RSUs)
– Vehicle-to-X (V2X), mixed V2V-V2I approach

V2V
RSU
V2I V2I

V2V

RSU
 IoT Based Traffic Management System

⚫ Important Features
⚫ Finding an emergency path for an emergency situation is easy.
⚫ This IoT project can be used anywhere.
⚫ Can identify traffic violator at night.
⚫ It shows green light only for an ambulance, fire truck, or emergency vehicle.
Smart Irrigation system
REMOTE MACHINE MONITORING (JCB) -
VODAFONE
Vodafone's IoT solutions helped construction equipment manufacturer
JCB automate the monitoring of its machinery. This helped it maintain
the health of the machinery and reduce down-time, making it a Ready
Business
Business Problem
Since construction equipment is very expensive to monitor and
maintain, JCB felt the need for quick, reliable information for better
upgrades and upkeep.
They devised the Livelink telematics system to help stay connected
to their machine fleets.
JCB needed a strong partner to power Livelink for remote
monitoring and management.
JCB
 REMOTE MACHINE MONITORING (JCB) -
VODAFONE
Solution Offered M2M Modules Deployed in Loaders
Two Fuel Sensor – Detection of Fuel (high
Vodafone developed & deployed a robust IoT solution to power
Livelink. This helped monitor and provide information on service,
and low), Water in Fuel
operation and security of the JCB equipment.
Three Engine Sensor – Engine On and Off,
Automotive-grade SIM cards for improved efficacy and longevity
were provided. Engine Temperature and Engine Pressure
Two Temperature Sensor – Engine Coolant
The Vodafone IoT Managed Connectivity Platform makes it easy for
JCB to make large scale IoT deployments. Temperature and Engine Oil Temperature
Secure connectivity was ensured to prevent any misuse Two Pressure Sensor – Engine Oil Pressure

and Engine Coolant Pressure
One GPS – GPS Co-ordinates
Classification of Wireless Sensor Networks

⚫ Static and Mobile WSN
⚫ Deterministic and Nondeterministic WSN
⚫ Single Base Station and Multi Base Station WSN
⚫ Static Base Station and Mobile Base Station WSN
⚫ Single-hop and Multi-hop WSN
⚫ Self – Reconfigurable and Non – Self – Configurable WSN
⚫ Homogeneous and Heterogeneous WSN
Overview (Cont.)

Characteristics of Wireless Sensor Networks

⚫ Requirements: small size, and low cost. Constrained by
– Energy, computation, and communication
⚫ Small size implies small battery
⚫ Low cost & energy implies low power CPU, radio with
minimum bandwidth and range
⚫ Ad-hoc deployment implies no maintenance or battery
replacement
Overview (Cont.)

Lifetime
⚫ Nodes are battery-powered
⚫ Nobody is going to change the batteries. So, each operation brings the
node closer to death.

"Lifetime is crucial!”
To save energy:
⚫ Sleep as much as possible.
⚫ Use data fusion and compression.
⚫ Transmit and receive only if necessary. Receiving is just as costly as
sending.
SMART FRIDGE
HOW DOES MY FRIDGE DO THAT?

You are leaving the home (sense user)
There’s no milk in fridge (sense object)
Use this information to make a decision (process)
Inform user about decision (communicate)
HOW DOES MY FRIDGE DO THAT?

You are leaving the home (sense user)
 What type of sensor?
 Identify other contexts (e.g., store hours)

There’s no milk in fridge (sense object)
Use this information to make a decision (process)
Inform user of decision (notify)
HOW DOES MY FRIDGE DO THAT?
You are leaving the home (sense user)
There’s no milk in fridge (sense object)
 What type of sensor?
 Is milk needed?
 No milk or “little” milk? (prediction)

Use this information to make a decision (process)
Inform user of decision (notify)
HOW DOES MY FRIDGE DO THAT?
You are leaving the home (sense user)
There’s no milk in fridge (sense object)
Use this information to make a decision (process)
 Where is processor?
 What are the rules?
 Fixed rules versus dynamic rules (learning)

Inform user of decision (notify)
HOW DOES MY FRIDGE DO THAT?
You are leaving the home (sense user)
There’s no milk in fridge (sense object)
Use this information to make a decision (process)
Inform user of decision (notify)
 How?
 When?
 Privacy?
INTERNET-OF-THINGS (IOT)
 COMMUNICATION MODEL
Communication protocol is the backbone of IoT system which enable
network connectivity and coupling the applications.
Protocols allows devices to exchange the data over the network.
Protocols defines the data exchange formats, data encoding,
addressing schemes for routing of packets from source to destination.
Communication protocols also monitors the sequence control and flow
control function while transmission of information.
These protocols uses different model like request-response, publisher-
subscriber, push-pull, and exclusive pair model.
REQUEST-RESPONSE MODEL (COMMUNICATION MODEL)
REQUEST-RESPONSE MODEL

1. Request-Response Model
Example: Smart Home Thermostat
Scenario: A user wants to check and adjust the temperature in their home using a smart
thermostat.
How It Works: The user sends a request from their smartphone to the thermostat to get the
current temperature (request). The thermostat responds with the current temperature data
(response). If the user decides to change the temperature, they send another request with the
new temperature setting, and the thermostat confirms the adjustment (response).
REQUEST-RESPONSE MODEL

1. Request-Response Model
Example: Smart Home Thermostat
Scenario: A user wants to check and adjust the temperature in their home using a smart
thermostat.
How It Works: The user sends a request from their smartphone to the thermostat to get the
current temperature (request). The thermostat responds with the current temperature data
(response). If the user decides to change the temperature, they send another request with the
new temperature setting, and the thermostat confirms the adjustment (response).
Example: Smart Lock System
PUBLISH-SUBSCRIBE MODEL
PUBLISHER-SUBSCRIBER MODEL

Example: Environmental Monitoring System
Scenario: An environmental monitoring system collects data on air quality,
temperature, and humidity from various sensors spread across a city.
How It Works: Sensors (publishers) send data on air quality, temperature, and
humidity to a central topic in a cloud-based service. Applications or users
interested in this data (subscribers) subscribe to the topic and receive real-time
updates whenever new data is published.
Example: Smart Agriculture System
PUSH-PULL MODEL
PUSH-PULL MODEL
Example: Smart Retail Inventory Management
Scenario: A smart retail store tracks inventory levels using sensors
on shelves.
How It Works: Sensors on the shelves push data about inventory
levels into a message queue. An inventory management system
pulls this data from the queue to analyze stock levels,
automatically placing orders for new stock when levels are low,
and ensuring shelves are always stocked.
Example: Industrial Equipment Monitoring
EXCLUSIVE PAIR MODEL
EXCLUSIVE PAIR MODEL
Example: Connected Medical Devices
Scenario: A patient uses a wearable medical device that monitors
their heart rate and other vital signs.
How It Works: The medical device establishes a direct and secure
communication link with a doctor's monitoring system. This exclusive
pair ensures that sensitive health data is transmitted securely and
only accessible to the patient's healthcare provider for monitoring
and analysis.
Example: Secure ATM Cash Management System
MONITOR THE QUALITY OF THE PRODUCTION PROCESS
DATA CENTER (TATA COMM.) AND IOT
PROJECT SURYA BY VODAFONE
TEST YOUR KNOWLEDGE
Which of the following is NOT a key driver of digital transformation?
A) Increasing customer expectations
B) Regulatory compliance requirements
C) Improved staff training programs
D) Advances in technology
TEST YOUR KNOWLEDGE
What is the primary benefit of using a cloud-based infrastructure in digital
transformation?
A) Enhanced security and privacy
B) Unlimited data storage
C) Scalability and flexibility
D) Lower hardware costs
TEST YOUR KNOWLEDGE
Digital disruption refers to:
A) Minor technological updates in business operations
B) Fundamental changes in business models due to new digital technologies
C) Temporary interruptions in digital services
D) Enhancements in traditional marketing strategies
TEST YOUR KNOWLEDGE
What role do digital platforms play in digital disruption?
A) They act as intermediaries reducing direct customer engagement
B) They enable new business models by connecting different market participants
C) They focus on physical product distribution
D) They limit the scalability of digital services
TEST YOUR KNOWLEDGE
In the context of digital disruption, what is a "disruptive innovation"?
A) A new technology that enhances existing products
B) An innovation that significantly alters or replaces existing industries or markets
C) A minor upgrade to current technology
D) A temporary trend that impacts business operations
IOT LEVELS

▪An IoT ecosystem can be designed on different levels.
▪ Each level is fundamentally a roadmap of how to deploy the
components of the IoT ecosystem.
LEVEL 1

smart home.
LEVEL 2

smart factory.
LEVEL 3

Smart industry.
 LEVEL 4

courier tracking system.
LEVEL 5

forest fire detection system
LEVEL 6

weather monitoring system