NPTEL Course on Entrepreneurship - Week 5 - Lectures 21-25 (PDF)

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This document contains lecture materials from a course on entrepreneurship, focusing on technological innovation and global business strategy. It includes a global unicorn analysis.

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NPTEL

COURSE ON ENTREPRENEURSHIP
Perspectives of Business Strategy and Economic Development

WEEK 5 – LECTURES 21, 22, 23, 24 and 25
Course Modules 6 and 7 (Part)

Technological Innovation and Entrepreneurship

Prof. C Bhaktavatsala Rao, Ph.D.
Ajit Singhvi Chair Professor

Department of Management Studies
Indian Institute of Technology Madras
 NPTEL

COURSE ON ENTREPRENEURSHIP
Perspectives of Business Strategy and Economic Development

WEEK 5 – LECTURE 21
Course Module 6 (Part)

Technological Innovation and Entrepreneurship
Part 1

Prof. C Bhaktavatsala Rao, Ph.D.
Ajit Singhvi Chair Professor

Department of Management Studies
Indian Institute of Technology Madras
An Analysis on Global Unicorns

3
Global Unicorns - Country-wise Analysis
11.01
Country Total Valuation in $B 13.00 7.85
7.07
15.60 6.00
United States 678.53 4.54
21.76 4.10
China 374.61
India 54.83 22.90
29.55 678.53
South Korea 29.55
Indonesia 22.90 54.83 United States
Germany 21.76 China
India
Singapore 15.60
South Korea
Brazil 13.00 Indonesia
Switzerland 11.01 Germany
Israel 7.85 Singapore
Sweden 7.07 374.61 Brazil
France 6.00 Switzerland
Israel
Australia 4.54
Sweden
Japan 4.10 France
South Africa 2.58 Australia
Malta 2.50 Japan
Colombia 2.15

Hong Kong 2.00
Spain 1.40 Analysis
Canada 1.00
❑ Unites States tops the list with a total valuation of
Estonia 1.00
678.53$B, followed by China with a total valuation of
Luxembourg 1.00
374.61$B
Netherlands 1.00
Philippines 1.00 ❑ Though India ranks third with a valuation of 54.83$B, it is
Portugal 1.00 only 5% of what United States and China has achieved
4
Total 1267.98
Source: https://www.cbinsights.com/research-unicorn-companies
 Global Unicorns - % Achieved
Country Valuation ($B) %
United States 678.53 54% 1%
China 374.61 30% 1%
1% 1%
India 54.83 4% 1%
2%
South Korea 29.55 2% 2%
2%
Indonesia 22.90 2%
Germany 21.76 2% 54%
2%
Singapore 15.60 1%
4%
Brazil 13.00 1%
Switzerland 11.01 1%
United States
Israel 7.85 1% 30% China
Sweden 7.07 1% India
South Korea
France 6.00 * Indonesia
Australia 4.54 * Germany
Singapore
Japan 4.10 * Brazil
South Africa 2.58 * Switzerland
Israel
Malta 2.50 * Sweden
Colombia 2.15 * Others
Hong Kong 2.00 *
Spain 1.40 *
Canada 1.00 *
Estonia 1.00 *
Analysis
Luxembourg 1.00 *
Netherlands 1.00 * ❑ United States has achieved 54% of the total valuation
Philippines 1.00 * when compared to other countries.
Portugal 1.00 *
Total 1267.98 ❑ China with 30%, ranks second while rest of the
countries has achieved only less than 5% of the total
* - Negligible valuation of what United States and China has
5
achieved
Source: https://www.cbinsights.com/research-unicorn-companies
Global Unicorns - Country and Domain-wise Analysis - Top 3 Countries
Country Domain Total Valuation in $B
Fintech 118.42 Analysis of Global Trends
Other 96.28
Consumer & retail 63.30
Internet software & services 62.91
Artificial intelligence 53.70 ❑While Fintech Start-ups are doing
E-commerce & direct-to-consumer 48.19 extremely well in United States,
Health 43.95
United States
Supply chain, logistics, & delivery 42.90 China has achieved almost double
Travel 34.40 the total valuation than United
Data management & analytics 33.73
Hardware 28.64 States in Artificial Intelligence
Cybersecurity 16.95
Auto & transportation 16.19
Mobile & Telecommunications 14.97
Edtech 3.00 ❑Indian Start-ups are doing well in
BI & Analytics 1.00
Artificial intelligence 102.39
Fintech closely followed by Supply
Auto & transportation 73.29 chain and E-commerce
E-commerce & direct-to-consumer 45.28
Hardware 37.03
Mobile & Telecommunications 25.80
Internet software & services 14.50 Potential of India
Edtech 13.67
Supply chain, logistics, & delivery
Health
11.37
11.10
❑Of the $1268 B of global unicorns,
China
Consumer & retail 11.00 US, China and India account for 87
Other 10.10
Auto & transport 5.00
percent in the aggregate. While
Travel 4.50 India is in the Top 3, its percentage
Fintech 2.86
Data management & analytics 2.65
is only 4 percent, compared to 54
eCommerce/Marketplace 2.07 percent of US and 30 percent of
Cybersecurity 1.00
eE-commerce & direct- 1.00
China
Fintech 12.80
Supply chain, logistics, & delivery
E-commerce & direct-to-consumer
9.10
8.10
❑That said, with India being home to
Auto & transportation 7.20 the largest start-up system of the
India Edtech 5.75
Travel 4.30
world with over 7,000 start-ups
Internet software & services 3.18 registered, potential exists for India
Mobile & Telecommunications 2.40 6
Other 2.00
to move ahead.
Source: https://www.cbinsights.com/research-unicorn-companies
Global Unicorns - Country and Domain-wise Analysis - Other Countries
Total Valuation Total
Country Domain Country
in $B Domain Valuation in
E-commerce & direct-to-consumer 11.65 $B
Other 6.32
Artificial intelligence 2.00
Mobile & Telecommunications 4.00
South Korea Supply chain, logistics, & delivery 2.60 Japan Mobile & Telecommunications 1.10
Fintech 2.20 Fintech 1.00
Consumer & retail 1.78
Travel 1.00 Consumer & retail 1.58
South Africa
Supply chain, logistics, & delivery 10.00 Mobile & Telecommunications 1.00
E-commerce & direct-to-consumer 8.00
Indonesia Malta Other 2.50
Fintech 2.90
Travel 2.00 Other 1.15
Health 5.15 Colombia Supply chain, logistics, &
Fintech 4.62 delivery 1.00
E-commerce & direct-to-consumer 4.54
Travel 1.00
Germany Auto & transportation 2.25 Hong Kong Supply chain, logistics, &
Other 2.20
delivery 1.00
Travel 2.00
Data management & analytics 1.00 Spain Auto & transportation 1.40
Auto & transportation 14.30 Canada Mobile & Telecommunications 1.00
Singapore
Artificial intelligence 1.30
Estonia Auto & transportation 1.00
Fintech 10.00
Brazil Supply chain, logistics, & delivery 2.00 Luxembourg Other 1.00
E-commerce & direct-to-consumer 1.00
Netherlands Hardware 1.00
Health 8.00
Switzerland Fintech 2.01 Philippines Other 1.00
Cybersecurity 1.00 Portugal Internet software & services 1.00
Artificial intelligence 3.25
Hardware 1.60
Israel
Auto & transportation 1.50 The fact that even developed industrial
Mobile & Telecommunications 1.50
Fintech 5.50 countries such as South Korea, Germany
Sweden
Other 1.57 Japan and Sweden trail behind India in global
Auto & transportation 1.60
Internet software & services 1.16 unicorn pecking order is encouraging. Flipping
France Health 1.14 the thesis, however, the developed industry in
Other 1.10
Artificial intelligence 1.00 such countries is itself in the vanguard of
Internet software & services 2.50 technological innovation or has been absorbing
Australia Other 1.04
Fintech 1.00 start-ups even before they reach the unicorn7
status.
Source: https://www.cbinsights.com/research-unicorn-companies
The Product Staircase

Commercialisation

Validation

Testing

Prototyping

Ideation

Where and how does
disruption happen?
8
The Technology Pyramid

Innovators

Differentiators

Followers

Who is best placed to disrupt and/or transform markets and industries?
9
Technology Development in Home Light Bulb
✓ Over a century of base Edison technology (1879 to 1985)
✓ Recent 25 years have seen some breakthrough technologies in CFL and LED
technologies
✓ Massive improvement in energy efficiency from the first design, accompanied by
progressive drop in pricing, significant increase in lifespan, and increase in
customisation options
✓ Now, microchip embedded and sensor enabled ‘smart bulbs’

10
Technology driving LED light bulb features
S.N. Type Energy Efficiency
1 Traditional incandescent light bulb 10%

2 Incandescent halogen bulb 30% more efficient than (1)

3 Compact fluorescent light (CFL) bulb 75% more efficient than (1)

4 Light emitting diode (LE) bulb 90% more efficient than (1)

Early to market LEDs were inefficient in heat dissipation and burned out prematurely

If every American home replaced their five most frequently used light fixtures or
the bulbs in them with LED bulbs that have earned the ENERGY STAR, America
would:

▪ Save enough energy to light 33 million homes for a year

▪ Save near $5 billion each year in energy costs

▪ Prevent greenhouse gases equivalent to the emissions from nearly 6 million
cars

Positive technology not only improves features for customers but also protects environment 11
Types of technological innovation
Evolutionary Innovation 

Sustainable Innovation

Revolutionary Innovation 

Disruptive Innovation Transformational Innovation 

Established firms focus
internally on sustainable
There is a symbiotic Universities provide
innovation and resort to
core technologies for
relationship between all the three types of
acquisition of start-ups for
disruptive innovation
the three types innovation

Start-ups focus on disruptive
innovation and develop up
to commercialisation stage

12
Where does technological innovation occur?
Established Companies 

Traditional main spaces
Public and Private Research
Centres, including Universities 

The new main spaces Start-up Firms 

There is a symbiotic Established firms acquire
relationship between the start-ups or core
technologies
the three spaces
Universities provide
core technologies

Start-ups develop the core
technologies

13
The Unique Role of Start-ups: From Initial Rejection to
Eventual Dominance

Performance improvement
required by mainstream
markets

Expected trajectory of
Performance performance improvement

Current performance of
potentially disruptive technology

Time

“Every company that has tried to manage mainstream and disruptive businesses within a
single organization failed.” - “Disruptive Technologies: Catching the Wave” by Joseph L Bower
and Clayton M Christensen, Harvard Business Review, 1995
14
Clayton Christensen on Disruptive Innovation
▪ Disruptive innovations originate in low-end or new-market footholds
▪ Disruptive innovations don’t catch on with mainstream customers until
quality catches up to their standards

Disruption is a process

Four
All disruptions need to be Features of Business models are very
embraced by big companies different from those of
Disruptive incumbents
Innovation

Disruption comes
with risks of failure

Exceptions do exist in terms of disruptive technologies brought in by big firms from
high-end segments. Flat panels and OLEDs are some examples. 15
 NPTEL

COURSE ON ENTREPRENEURSHIP
Perspectives of Business Strategy and Economic Development

WEEK 5 – LECTURE 22
Course Module 6 (Part)

Technological Innovation and Entrepreneurship
Part 2

Prof. C Bhaktavatsala Rao, Ph.D.
Ajit Singhvi Chair Professor

Department of Management Studies
Indian Institute of Technology Madras
Technology-driven Industries: Ten Examples

Bio-pharma-
ceuticals
Artificial Medical
Intelligence Devices

Computers
Robotics and
electronics

Technology-
driven
Industries

Machinery
Communica-
and quality
tion
equipment

Energy Automobiles

Aerospace

17
Entrepreneurial and start-up firms play a big role in the transformation of these industries
Navigating the Next Industrial Revolution

Industrial
Year Main Characteristics/Drivers
Revolution
Steam, water, mechanical production
1 1784
equipment
Division of labour, electricity, mass
2 1870
production

3 1969 Electronics, IT, automated production

4 ? Cyber-physical-biological systems

? - Judgement is still out on when the Fourth Industrial Revolution
has commenced; from the early 2000’s the origins have been there;
and there could be an overwhelming revolution of digital
technologies in the next 5 to 10 years.

18
The Most Critical Challenge and Exciting Opportunity Today…

“Non-linearity” in
Technologies, Processes, and Models

Non-linearity implies inexplicability or unpredictability of cause-effect
or input-output relationships

19
Innovative Technologies are Reshaping industries

Industry Past/Current Future
Pharmaceuticals Chemical molecule based Biological cell based

Automobiles IC engine driven Electric power-pack driven

Internet Connecting people Connecting people and
devices
Banking Conventional ledgers, Distributed ledgers,
password protected blockchains
Analytics and Services Human intelligence Artificial intelligence

Space Disposable spacecraft Reusable spacecraft
Diagnostics Laboratory sampling Wearable devices
Energy Fossil fuels Solar, and other renewables

Crop Protection Chemical fertilisers and Bio-fertilisers and bio-
pesticides pesticides

20
Inventive Technologies are Reshaping How Industries Deliver Value

Activity Past/Current Future
Body scanning Image capture and desk Direct viewing and analysis
analysis
Drug Delivery Multiple cells and pathways Directed cells and pathways

Electric traction Fixed batteries Battery-swapping
Automobile driving Human Autonomous
Robotics Human programmed Self-programmed
Component manufacture Moulding and pressing Additive manufacturing

Disease curing Pharmaceuticals Own cells/ Own immunity

Retail Human-served Automated stores
Device operation Instruction-controlled Thought-controlled

21
Unpredictable Competitive Forces are Rewriting Business Models

Factor Past/Current Future
Key customers Homogeneous, segmented Heterogeneous, layered

New entrants Established Multiple start-ups
Operating systems Coded Deep learning, artificial
intelligence
Financing National liquidity Global liquidity
Competition Industrial, national Global trade wars
Key suppliers Components and systems Natural and rare materials

Substitute products Improvers Disruptors, transformers

Key macro Unlimited growth Climate protection
Industrial strategy Business-driven Government-driven

22
22
Technology- A Bridge between Equity and Growth

Technology

The bridge that connects
the equity-growth divide

Public Safety Economic Growth
Community Health Employment Growth
Resource Conservation Incomes and Savings
Environmental Protection Quality of Life

23
Strategy Flow, from Idea to Commercialisation

Design

Manufacturing
Investments
Marketing

▪ Innovation Business Support Services
▪ Differentiation Strategy
▪ Followership
Revenues
Technology
Pyramid Earnings

Margins

24
Successful Entrepreneur Deftly Balances Innovation
Intensity and Product Profitability

Tactically Strategically
High
Superior Outstanding

Product
Profitability

Operationally Tactically
Low
Weak Superior

Low High

Innovation Intensity

25
Pioneering Leadership Model

Technology-driven,
Innovation customer-centric
Leadership
firms
Differentiation
Leadership

Cost Leadership

Pioneering Advantage

Product Intuition

Synergy through
digitalisation and Emerging
Established deployment of science
product-based & technology market-oriented
firms firms
Physical Emotional
Triad Triad

Process Business Passion Focus

26
Technology Competence Framework

Quantify total
technological
Index each power of the
part of the product
Re-focus, value chain for
integrating technology
Define value new
chain technologies

Start-ups tend to focus more on technology than on business value chain,
diluting the power of technology, as it flows from design to delivery

27
Technological Innovation + Commercial Success Boosts Financial Valuation
Acquirer Acquired Year Domain Valuation
(USD Bn)
Microsoft LinkedIn 2016 Professional social media 26.2
Facebook WhatsApp 2014 Social networking 19.0
Google YouTube 2006 Online video streaming 1.65
Google Android OS 2005 Mobile operating system 0.05
Microsoft Hotmail 1997 Email platform 0.50
Microsoft Skype 2011 Video calls 8.50
Google Instagram 2012 Social media 1.0
Yahoo Tumblr 2013 Micro blogging website 1.10
Apple Beats 2017 Music streaming 3.0
Microsoft Mojang 2014 Game developer 2.5
Amazon Twitch 2014 Video game streaming 0.97
Facebook Oculus VR 2014 Virtual reality 2.0
Google Nest 2014 Home automation 3.2
Walmart Jet.com 2016 Ecommerce 3.3
Cisco AppDynamics 2017 IT operations analytics 3.7
Adobe Marketo 2018 Marketing automation software 4.75
Microsoft aQuantive 2007 Online ad network 6.3
 NPTEL

COURSE ON ENTREPRENEURSHIP
Perspectives of Business Strategy and Economic Development

WEEK 5 – LECTURE 23
Course Module 6 (Part)

Technological Innovation and Entrepreneurship
Part 3

Prof. C Bhaktavatsala Rao, Ph.D.
Ajit Singhvi Chair Professor

Department of Management Studies
Indian Institute of Technology Madras
Innovator Strategies Application leadership requires a
disruptive approach of using new
technologies to make aspirational
things a reality (like a flying car, for
example).

Application Experience leadership requires a
Leadership combination of product and process
approaches to take user experiences
to a different level. Often, novel
material and precision manufacturing
technologies have to be used together
to conceptualise and provide an
R&D, elevated level of user experience.
Experience
Core of
Leadership Experimental leadership is particularly
Innovation
relevant when companies have
surplus cash and if pursuit of
additional scale in conventional
domains with such cash no longer
makes sense. Innovator firms desirous
of pursuing this strategy must have
Experimental close links with experimental
Leadership developments in universities and
start-ups as well as research
laboratories and/or national missions
such as clean energy and smart cities.
30
 Smart Differentiation: Five Faculties of Futurism
The key to differentiation could be so
Sensor technologies will be game obvious that it escapes attention. A
changers as computer chips have been. striking example is the delay in
Virtually any product can be refined or re- providing high quality front cameras in
engineered with sensor technologies. smartphones. Smart observation can
Biological sensors would be the next Observe a help utilise available technologies to
frontier in providing proactive and Future achieve substantial differentiation.
effective healthcare delivery.

There are two views on
innovation-led differentiation.
Sense a Time a One is that an innovation would
Future Future be off mark if it is
commercialised ahead of market
preparedness. The other is that
prompt introduction of
innovations creates its own
markets.

Magnification technologies in the past
and robotic technologies of the present Imagine a Learn a Future is built by individuals who learn
have revolutionised surgeries. Labelling at Future Future constantly. While books of science and
cellular level of human organs would engineering, design laboratories,
provide even greater precision in future. A simulators and testing arenas are all
Bed and Pillow Combination (BPC) could essential for the designers to learn and
move from being just a sleep aid to being develop, the greatest learning comes
a health monitor and wellness provider, from the practical behaviour of current
better than any smart wearable. products in the field.

Futurism needs to be a strong cultural facet of organisations committed to a 31

technology-driven competitive strategy of differentiation.
 Model of Five Technology Forces
Product functionality can be
viewed in terms of integration of
new technologies or enhancement
of existing technologies.

Power of
Functionalities

Power of
Power of Power of
Supportive
Operating Materials
Ecosystem
Systems
A firm’s mastery of material and
Artificial intelligence will help develop component technology would
products that are intelligent and determine the synergy with that
independent, eventually simulating Power of of product functionality.
the human brain. Processes

Manufacturing process should
be seen beyond the capability of
manufacturing equipment, its
tolerances and productivity for
operating efficiency and
competitive advantage.
32

Performance of products is optimised when they are placed in the right ecosystem
Generic Technology Strategies

Changes industry
fundamentally

Ensures superiority on
all attributes Life Technology
Strategy
Provides functional
efficiencies Experience
Technology
Strategy
Functional Life technology strategy
Technology seeks to extend horizons of
Strategy human life through novel
areas of operation. The
Generic experience strides being made in
technology strategy provides understanding human
for the broadest set of users biology and addressing the
Generic functional total high-end product disease, aging and other
technology strategy is performance complete with phenomena are driven by life
focused in terms of product elegance. It technology strategy’s quest
technology development and generates a product leader, for better life.
investment commitment to from all the dimensions one
cover target market can possibly consider.
segments to achieve an
optimal investment-revenue-
profit relationship.
33
Elements of Customised Product Design

Understanding
personal
needs

Measuring
Machine
and
learning and
calibrating
Artificial
individual
intelligence
diversities

Flexible
manufacturing Business data
and delivery analytics
systems

The concept of full-line manufacture as it exists today is one of positioning products at different price
points, which almost invariably translates having a range of products from low-spec to high-spec. True
customer choice, however, enables the design of a product around the customer needs, with a very open
and flexible ‘mix and match’ approach. 34
Facets of Technological Behaviour

User
Affordability

Timeliness to Hardware
Market Specifications

Technological
Behaviour

Experimental Operating
Novelty System

35
Three Steps of De-commoditisation

De-commoditised
Product

Retro-designing
to Basic Roots
Commoditised with
Additional
Product Contemporary
Principal
Features
Functions
Value Adding
Features

36
Even a Simple Product Can Benefit from a Start-up Technology Initiative
Should be in leak-proof
container, easily usable

Should be of pleasant Packing Should be more than
fragrance the prescribed
Total Fatty
minimum of 30%
Sensory Substance
fatty substance
(TFS)

Should be free of Should be more than
caustic alkali, heavy the prescribed
Safety
Lathering minimum of 100ml of
metals and microbial
Power lather whipped up
contaminations Determinants of
a Good Shaving
Cream

Water Should not be more than
Should be extrudable 60% of the total mass of
Homogeneity Content
easily from the crimped the cream
end of a collapsible tube

Should have Should have
Unique Adequate
Should be a thick emulsion Consistency Shelf-life It should not disaggregate
with soft texture, uniform or physically deteriorate
colour and steady consistency

Material technology determines the competitiveness of a shaving cream
Application of CATCH Model for Electric Vehicles

Skill Type Activity/ Outcome

▪ Imagine non-fossil fuel vehicles as a way to cut down pollution
Conceptual ▪ Imagine self-driving cars as a way to enhance safety and
productivity on roads
▪ Analyse and identify electric vehicles as the best possible solution
Analytical
▪ Analyse computer and sensor-aided approaches

▪ Re-engineer batteries and vehicles to suit the new requirements
Technological ▪ Develop battery charging technologies
▪ Develop newer battery materials

▪ Develop battery-swapping as a balance between power and range
Creative for optimal mobility
▪ Reconfigure driving and ownership practices for seamless mobility
▪ Connect and reconfigure the whole spectrum of vehicle makers,
Holistic component makers, material manufacturers, power suppliers and
automobile users to develop a total electric vehicle ecosystem

38
A Framework of Apple’s Success

Design
Elegance

Customer Supply
Connectivity Efficiency

Manufacturing
Leadership
Smartness

Seamless
Hardware and People
Software

39
Alchemy Vs Assembly

Factor Assembly of Alchemy of
Competencies Competencies
Organisations Rigid and Structured Periodic refresh with upgrade
of talent (existing and new)

Collaboration Project-specific Continuous and perpetual

Technological flair Technological solutions for Technological solutions to
product development human problems

Vision Physically obvious Beyond the obvious
Culture Diverse formal and informal Total organisational chemistry
relationships

Most Organisations Vs. Apple

40
A Diamond of Saviour Skills

Product
Manufacturing
Innovation
Excellence

Industrial
Turnaround Diversification

Globalization Skills

Customer
Centricity
Driving
Competitive Value Chain
Advantage Optimization

Discovering New Organizational
Customer Needs Collaboration

38
 NPTEL

COURSE ON ENTREPRENEURSHIP
Perspectives of Business Strategy and Economic Development

WEEK 5 – LECTURE 24
Course Module 6 (Part)

Technological Innovation and Entrepreneurship
Part 4

Prof. C Bhaktavatsala Rao, Ph.D.
Ajit Singhvi Chair Professor

Department of Management Studies
Indian Institute of Technology Madras
Humatronics and Productivity

Conduct super-
intelligent Categorise all
operations through activities
Humatronics

Conversion of hazardous Defining Identify
human operations to activities for
safe robotic operations Humatronics Humatronics

Utilise Use
telepresence Humatronics
instead of for activity and
physical value
presence accounting

43
Differences in Technological and Business Domains

Factor Technical Domains Business Domains

Activity Repeatability Novelty
Condition Certainty Uncertainty
Nature No risk Take risks
Focus Productivity Value
Relationship Man-Machine Enterprise-Environment
Hypothesis Validated through Validated upon business
experimentation launch

44
Some Trends of Technological Development
Factor From To
Connectivity Connected Individuals Connected Societies and Nations

Devices Smart devices Connected companions
Digital Electronics Bionics
Robotics Machine Learning Humanoids
Energy Consumable Renewable
Industrialization Carbon Credits Carbon-free
Chemicals Plastics-heavy Plastics-free
Medicines Chemical Biological
Domain Function Mechanical - Electrical Physical – Biological – Digital

Mobility Combustion Engine Electric and Hydrogen Power-Packs

Just About Anything Programmed Sensors and Self-administering

45
A Touch of Human Technology for the Future
Memory at full potential
Less reliance on search
engines
Right choice of Recharge for better recall
thoughts, words,
format and backdrop
Artificial Intelligence
Memory Logic
Ethics
Output Inputs Emotions

Super-ready
Regenerative Operating
Processing Reduced rigidity
Value Systems
Human Enhanced flexibility
Accretive
Computer

Devices Sensors
Sensitive & Sensible
Be one’s Human communications
own device Fuller use of the 5
Apps Malware sensors

Discovering
from each A Human brain malware
other filter
rationality
logic 46
A Framework for Innovating on Basic Needs

Derive
incremental
value from
current
technologies
Adopt sensor, IOT Upgrade the
and other Web established
technologies technologies

Create new
products and
Mobility as Integrate into
digital
services based a technologies
on new
technologies
Basic Need

Reposition &
Assess costs
rebrand
& benefits of
through
breakthrough
modern plus
technologies
‘retro’ features
Integrate
supportive
technologies

47
Digital Limits and Opportunities

Big Data Limited by
Analytics Data

Precision and
Lack of
Perfection
Intuition

Discipline and
Lack of
Compliance
Instinct

Learning based
Inputs Confusion,
Ethics and
Values
24x7
Operation Programmed
Choices

Opportunities Limits

Digital World

48
Risks of Dependence on Automated Technology

New Technology Risks

Driverless car Wrong choices under random traffic conditions

Computer controlled operations –
Risk of getting hacked
from manufacture to medication
Smart home technologies Intrusion into privacy
Cognitive loss associated with experiences that
General automation
are missed out
Algorithmic devices Biases built into algorithms
AI processed insurance claims Mistaken assessments
Autonomous chat-bots Reflecting human prejudices based on training
Hybrid human-machines Instructional conflicts and overwriting
AI systems in the Cloud Issues of control and governance
AI weapon systems Bugs can cause lethal consequences
Reusable spacecraft Unknown galactic forces

49
The Advantages and Limitations of Digital Assistants

▪ Processing of huge data
▪ Discovery of patterns
Advantages ▪ Takeover of all routines
▪ Precise scheduling and reminding
▪ Helps multi-tasking for humans

▪ Standardised experience, not necessarily
customisable
▪ Human attention may be further digressed to
Limitations monitoring digital assistant
▪ A researcher’s need could be entirely different
from an executive’s
▪ Services limited by language, culture, nativity, etc.

50
Challenges of Leveraging Digitisation

Increased
cost of
Internet of Genetic
Things rewiring; Loss
Distanced,
of
though
memorising,
connected
calculating
remote
and
working
exploration
skills

Reducing
Loss of
Digital human
personalised
interface in
customer Impact teaching and
interface
learning

Recruitment
Skill-shift due
through face
to automated
reading
medications
technologies
Device-
influenced
lifestyles.

51
Localised Globalisation

India has shown the way how global trends can be modified to suit local needs, and
in the process create new hybrid products that are more globally relevant.

Product Base Factor India Factor Resultant
Honda, Toyota, Hyundai
Automobiles Global designs Poor roads High ground clearance
vehicles
Global food processing Nestle Maggi Masala
Noodles Local tastes
technology noodles
Patanjali’s Herbal and
Personal Modern processing and Used to traditional
Ayurvedic products in
Products packaging ingredients
modern format
Mobiles application with
Medical Sophisticated hospital GE’s MACi, low cost
easy maintenance
Devices designs portable ECG devices
needs in rural areas

52
Balancing of Domestic and Export Markets Supports
Economic Independence

India has shown the way how global trends can be modified to suit local needs, and in
the process create new hybrid products that are more globally relevant.

50 50

Interaction of
▪ Diversified usage ▪ High Technology
domestic-export
▪ Product diversity ▪ High Quality
factors lead to superior
▪ Quality-cost equation ▪ Global Delivery Capabilities
product, service and
▪ After-sales service ▪ Global Management Systems
management
paradigms for any firm
pursuing a 50:50
balance

53
Motivational Matrix of Aspirational Economics and
Aspirational Individuals

Aspiration and Affordability present mobility barriers to groups which have different social-economic
status. Governments need to minimise the mobility barriers even as people need to exert to tide
over the mobility barriers. The force for development is defined by a positive grid in a 2X2 matrix of
economy and individuals.

Aspirational ▪ Skill gap ▪ Wealth generation
economy ▪ Sub-optimal ▪ Sharing of
potential prosperity

▪ Decline of a
Non-aspirational nation
economy ▪ Socio-economic ▪ National strife
stagnation and
decline

Non-aspirational Aspirational
individuals individuals

54
Global Innovation Index

India is the 60th most-innovative country globally:

Top 10 Countries Status of BRICS
Country Country
Rank Country Score Rank Country Score
Income Income
1 Switzerland 67.69 HI 69 Brazil 33.10 UM
2 Sweden 63.82 HI 45 Russia 38.76 UM
3 Netherlands 63.36 HI 60 India 35.47 LM
4 USA 61.40 HI 22 China 52.54 UM
5 UK 60.89 HI 57 South Africa 35.80 UM
6 Denmark 58.70 HI
7 Singapore 58.69 HI
8 Finland 58.49 HI
9 Germany 58.39 HI
10 Ireland 58.13 HI
HI-High Income
UM-Upper Middle Income
LM-Lower Middle Income

55
India in Global Innovation Index
India’s ranking in GII over time
Year GII Input Output Efficiency
2017 60 66 58 53
2016 66 72 59 63
2015 81 100 69 31

Innovation efficiency is the ratio between output rank and input rank.

India’s strength in Innovation
Factor Rank
Human capital and research 64
Graduates in science and engineering 10
Average expenditure of top three global R&D companies 14
Average score of top three universities in QS ranking 21
Market Sophistication 39
Trade completion and scale of market 16
Ease of protecting minority investors 13
Knowledge and technology outputs 38
Citable documents HI Index 21
Growth rate of per capita GDP PPP 5
ICT exports as percentage of trade 1
Creative goods exports 85
56
Creative goods exports percentage of total trade 18
India’s Weaknesses in Innovation

Factor Rank Top innovation clusters, and one in India
(based on Patent Filings)
Institutions 64
Rank Cluster Country
Ease of starting business 114
1 Tokyo-Yokohama Japan
Ease of resolving insolvency 111
2 Shenzhen-Hong Kong China
Ease of paying taxes 118
San Jose – San
Human capital and research 64 3 United States
Francisco
Education 114 4 Seoul South Korea
Pupil-teacher ratio, secondary 104 5 Osaka-Kobe-Kyoto Japan
Inbound mobility in 6 San Diego United States
102
Universities 7 Beijing China
Creative outputs 85 8 Boston-Cambridge United States
Global entertainment and media 9 Nagoya Japan
61
market 10 Paris France
Video uploads on YouTube 68 43 Bengaluru India

57
Digital Economy Potential

Digital transformation though disruptive has immense job potential for India with the right strategies. The
growing potential of the digital economy in India is likely to contribute substantially to GDP and also create
millions of jobs

Digital Economy Size (US Bn) Job Creation
Sector Potential by
2016-17 2024-25 2024-25 (Mn)
IT / ITEs 160 350 6.5
Electronics 100 300 8.9
Telecom 80 150 8.8
E-commerce 30 150 6.0
Digital Payments 3 50 2.5
Cyber Security 18 35 2.5
IOT 6 20 0.5
Sharing Economy 1 30 2.3
Digital Skilling 15 30 2.0
All Sectors 413 1115 40.0
Source: Nasscom, Media Reports

58
Artificial Intelligence: The Future Digital Frontier

Artificial Intelligence (AI) in growing fast and is poised to unleash the next wage of digital disruption and new
industrial growth, dominated by digital giants like Google, Amazon, Microsoft and Baidu, and electronics and
automobile corporations such as Apple and Tesla. A few sectors have also been early AI adopters:

Investment by Technology Category (USD Bn)
Investment by firms 26 – 39 Natural language 0.6 - 0.9 Virtual agents 0.1 – 0.2
Autonomous 0.3 – 0.5
Technology giants 20 – 30 vehicles Computer vision 2.5 – 3.5

Start-ups 6-9 Smart robotics 0.3 – 0.5 Machine learning 5-7

Sectors of AI Adoption
High AI Adoption Medium AI Adoption Low AI Adoption
High Tech Retail Education
Automotive Consumer packaged goods Tourism
Telecom Entertainment Healthcare
Financial Services Media

Source: McKinsey & Company; Indian Express, 12 July 2017

59
Main Driving Characteristics of Industrial Revolutions

First Industrial Revolution Used water and steam power to mechanise production

Second Industrial Revolution Used electric power to create mass production
Used electronics and information technology to
Third Industrial Revolution
automate production
Using digital technologies to fuse physical, digital and
Fourth Industrial Revolution
biological spheres

Impact of the Fourth Industrial Revolution

▪ More perceptive durable ▪ Digital enhancement of
and resilient customer product experiences
Products Customers ▪ Data and analytics to serve
▪ More substitutional of
human mind customers better
▪ Supply-side boost

Fourth
▪ All people connected by mobile Industrial
devices Revolution
▪ Integrated healthcare Impacts
▪ Understanding and improving
wellness and aging
▪ Improved quality of life
▪ From ownership to accessing ▪ Enhanced transparency
People Governments ▪ New Power over people
▪ Pervasive engagement
▪ Pressure to protect jobs

60
Connected Health or Digital Healthcare
Connected Health or Digitalised Healthcare is the collective term that describes applications of digital technologies
in multiple healthcare processes such as telecare, telehealth, telemedicine, mobile health, home health, hospital
health, integrated healthcare, clinical integration and so on.

Connected
Apps

Connected Connected
Education Patients

Six
components
of
Connected
Health

Connected Connected
Devices & Doctors
Wearables
Connected
Hospitals

Some exciting developments:
▪ Predictive analysis, diagnosis and treatment through artificial intelligence
▪ Smart home health including remote patient monitoring
▪ Ingestible technology, including nanotechnology delivery
▪ Patch sensors and wearables for multiple applications
▪ Brain controlled bionics
▪ Implantable technology, including brain chips
▪ Personal genomics, including bio-analytics and DNA diagnostics
▪ Wake and sleep analytics, including real time health data 61
▪ 3D Bioprinting and regenerative medicine
Expectations from the Fourth Industrial Revolution

Food Security

Energy
Clean Mobility
Security

The Fourth
Wave of
Technology
Digitisation of
Water Security
Biology

Digitisation of Digitisation of
Business Life

62
Management of Human Expectations and Technological Enhancements

Human
psychology and
behavior lead or
lag science and
Human technology Science and technology
Psychology move incrementally but
& Behavior with step-function leaps
every few years

Science and Technology of Products & Services

63
 NPTEL

COURSE ON ENTREPRENEURSHIP
Perspectives of Business Strategy and Economic Development

WEEK 5 – LECTURE 25
Course Module 7 (Part)

Technological Innovation and Entrepreneurship
Part 5

Prof. C Bhaktavatsala Rao, Ph.D.
Ajit Singhvi Chair Professor

Department of Management Studies
Indian Institute of Technology Madras
The Start-up Spaces
In the last few decades, offline to online and disaggregation/disintermediation offered great start-up
opportunities based on Internet and Software. Future start-ups will build on these but increasingly benefit
from as well as drive fundamental technological innovations and radical industrial transformations

Industrial
Transformations

Technology
Innovations

Internet Products
and Services 2020s Onwards
Software Products
and Services 2010s Onwards

Internet Products
2000s Onwards
and Services
Software Products Start-up Spaces Keep
1970s Onwards
and Services
Growing Cumulatively
65
Entrepreneurship Boosts Industrial Strength
India has become the world’s second largest mobile phone manufacturer, next to
China

From just 3 mobile manufacturing units in 2014, India witnessed a jump to 268
smartphone and allied services manufacturing units in 2018 (Source: ICEA)

In 2017, 82% of the mobile phones used in India were manufactured in India

This has become possible with a diversified manufacturing ecosystem. Of the
268 mobile device manufacturing units:

37% are mobile phone plants
38% are adapter plants
19% are battery plants, and
6% are plants for wired headsets, UB cable, parts etc.

The domestic industry, primed by huge domestic demand for smartphones, has
attracted major global manufacturers to set up manufacturing plants in India.

Component level entrepreneurial initiatives can strengthen the industry structure
further 66
Straight Linearity and Simple Non-linearity
Conventional strategies tend to be anchored around linear development of technologies and businesses.

For example, if email was successful in the 1990s as a popular niche technology of instant communication, all
subsequent efforts focussed on making the email more powerful and more collaborative, for example - an
Outlook version.

If Facebook wove an expanding open social community, Google+ attempted to build multiple circles of
communities.

Successful breakthrough technologies tend to be non-linear, however.

Twitter achieved success with the instantaneous brevity of 140 character messaging.

WhatsApp achieved success through texting service that is both free and private, extending equally well on
audio and video channels as well as Internet telephony later on, and with end-to-end fully encrypted services
more recently.

Instagram became successful by being a focussed photo-sharing application in the social media world

67
Linear Non-linearity
Sometimes non-linear ideas have their roots in the basic and oft ignored or forgotten natural configurations.

Most of the Internet firms and search engine firms are dependent on vast server farms, established on
expansive tracts of land.

Tesla’s electric car revolution would hinge on a massive battery factory ("giga factory”) with adjacent solar and
wind farms, making Tesla as much a huge power storage company as a premium electric vehicle company.

In future, just as Sun provides free solar power as nature’s gift to the mankind, manmade satellites may be
designed and launched to provide wifi connectivity all over the world.

Solar power on ground and on rooftops as well as dedicated solar parks is commonplace; the next horizon lies
in floating solar power from farms, lakes, seas and oceans.

68
Digital Impact on Buy-Sell – A Start-up Opportunity for Resource
Conservation
Instant
visibility of
total Universe As buyers keep looking
at the earliest points of
sale and resale, rather
Greater
Excessive than maximal points of
In a digital world, the transparency
discounts use and extended use,
and choice
more one buys the
and as sellers keep
more one will sell, and
looking at the earliest
vice versa. If this trend
points of purchase and
accelerates, as it looks
repurchase, products
to, the planet could be
will only multiply
burdened with
Electronic exponentially.
profligate consumption
Commerce Accelerated digital buy-
of resources and
Lower level of
Time sell as an inevitable
excessive hoarding of optimised
intermediation driver of socio-economic
products of multiple purchasing development is a fit case
generations
for some philosophical
and spiritual caveats
relating to the limitations
of the planet.
Reliance on
Lack of
word-of-
physical look-
mouth and
feel
digital reviews

Digital buy-sell could lead to a new ecological logjam. A buy-sell nirvana could be a theme that would
encourage ‘optimum development-optimum conservation’, if not, ‘minimum development-maximum
conservation’. Nations would have ombudsmen, corporations would have offices, societies would have
crusaders and families would have thinkers who will reflect the principles of a responsible universal digital age 69
that focuses on design optimization and resource conservation.
Digital Transformation of Logistics Industry

Digital Disintermediation, Aggregation and
Customisation

Primary Transportation Secondary Transportation
Network Network

A H
B C D E F G
V C
E U
Manufacturer/
N Transport S
Shipper Shipping Distributor Retailer
D Agency Fleet Owner T
(Owner of Agent/Broker
O Goods) O
R M
E
R

Warehousing Warehousing

W1 W2

Notes: A to B will have its own transportation network as occurring between B and H

Manufacturer /shipper having own logistics fleet may reduce a few entities involved but the processes
themselves remain
Logistics Start-ups - 1

Funding
Company Founded Location Investors Domain
(USD Mn)

Naspers, DST Global, Tencent, 12
Swiggy 2014 Bengaluru 1470 Food delivery
others