Nowadays, Internet of Things is not just another modern word or trend. It is a working tool for a big number of enterprises and businesses. Currently, 40% of manufacturing businesses are using IoT solutions intensively, 30% of health care organizations are within the world of IoT; 10% of retailers, 8% of security organizations, and 5% of car manufacturers are already using IoT solutions to improve their business models. During our IoT conference in Budapest last year, we have shown how IoT can change every business in the near future. As we foresee it right now, in a 5-10 years` time there will be no big and competitive enterprise possible working without the help of IoT solutions.
2. ABOUT IOT
AGENDA
OUR PAST WE ARE NOW
Application
areas
Platforms,
devices,
prototypes
Investments
Business
cases
OUR FUTURE
Forecasts
How will it
affect
markets
IOT
SECURITY
QUESTIONS
3. WHAT IS THE INTERNET OF THINGS?
The Internet of Things
connects devices such as
everyday consumer objects
and industrial equipment
onto the network, enabling
information gathering and
management of these
devices via software to
increase efficiency, enable
new services, or achieve
other health, safety, or
environmental benefits.
CONNECTED HOMES
WEARABLES INDUSTRIAL INTERNET
CONNECTED CITIES
CONNECTED CARS
5. OUR PAST
1800S FIRST ELECTRONIC
COMMUNICATION DEVICES
1926 TESLA PREDICTS THE
INTERCONNECTED WORLD
1989 WWW WAS
PROPOSED
1990 FIRST CONNECTED
DEVICES WAS CREATED
1990S THE RISE OF
INTERNET
2011 IPV6 PROTOCOL RELEASED.
340 UNDECILLION IP ADDRESSES
IPSO LAUNCHES THE USE OF IP
IN CONNECTED DEVICES
2005 UNITED NATIONS FIRST TIME
MENTIONED IOT IN A REPORT
2000 LG ANNOUNCES INTERNE
CONNECTED FRIDGE
1999 INTRODUCTION OF IOT
TERM
2013 INTEL CREATE IOT
SOLUTION GROUP
2015 IBM IOT DEVELOPER
COMMUNITY
7. IOT IN INDUSCTRY TODAY
BUSINESS/
MANUFACTORING HEALTH CARE RETAIL SECURITY TRANSPORTATION
40.2%
30.3%
8.3%
7.7%
4.1%
8. PLATFORMS AND FRAMEWORKS
ERICSON / SW16B, ROLLOUT, PROCESSES,
PLATFORMS, CONNECTIVITY
MICROSOFT / AZURE IOT SUITE AND INDUSTRIAL
SOLUTIONS, WINDOWS IOT CORE, IOT HUB
CISCO (HARDWARE) / THE INTERNET OF
EVERYTHING FOR CITIES , DEVKIT, ASIA
INNOVATION HUB
AMAZON (SOFTWARE) / AWS IOT
IBM (SOFTWARE) / IOD DEVELOPERS COMMUNITY
AND IOT FOUNDATION, ANALYTICS
SAP (SOFTWARE) / PREDICTIVE MAINTENANCE
INTEL (SEMICONDUCTOR) / GALILEO AND
EDISON, GREEN HOUSE, BABY MONITOR
SAMSUNG (CONSUMER PRODUCTS) / ARTIK
HARDWARE, IOT.JS FRAMEWORK
HP (SOFTWARE) / SECURITY, CENSE NETWORK
ORACLE (SOFTWARE) / CLOUD SERVICE
10. PROCESSES
COMMUNICATE
Information flow
across different
networks
CREATE
Data generated
by sensors
ACT
Work with
physical event or
state
ANALYZE
Find patterns or
relationship leading to
descriptions or
predictions
AGGREGATE
Gather together
information created at
different times and forms
and sources
Act
IOT
11. INVESTMENTS
Cisco
1.9 TRILLIONS
INVESTED TO
IOT STUDY.
1000 IOT
WORKERS
IBM
3 BILLIONS
INVESTED TO
IOT STUDY
AND
DEVELOPMEN
T. 1400 IOT
WORKERS
Microsoft
732+
EMPLOYEES
WORKING
WITH IOT
1000+
EMPLOYEES
WORKING
WITH IOT
Intel Ericsson
500+
EMPLOYEES
WORKING
WITH IOT
15. THE INTERNET OF THINGS
AN EXPLOSION OF CONNECTED POSSIBILITY
16. WORLD POPULATION AND NUMBER OF
CONNECTED DEVICES
0
10
20
30
40
50
60
2005 2010 2015 2020
Devices Population
17. WEARABLES
Wearable devices
to reach about
$20bn by 2017,
growing at over
60% CAGR.
$18.000
$16.000
$14.000
$12.000
$10.000
$8.000
$6.000
$4.000
$2.000
2013A 2014E 2015E 2016E 2017E
Complex Accessories
Smart Wearable's
Smart Accessories
Actions Cameras
$20.000
18. CITIES
Approximate
estimate of smart
meter opportunity
by geography, in
millions.
US
160
Rest of
APAC
240
CHN
300
Rest of
LatAm
60Middle
East
60
Rest of
Europe
260
AUS/
NZL
10
IND
270
BRA
62
JPN
70
UK
25
19. HOMES
North America
and Europe home
automation
systems.
Revenue
Installed Base
2012 2017E
60
50
40
30
20
10
0
$14
$12
$10
$8
$6
$4
$2
$0
20. CARS
Connected cars
penetration is being
driven by
applications in the
following: safety,
vehicle, diagnostics,
infotainment and
navigation, and fleet
management.
Connected Cars
Non-Connected Cars
120
100
80
60
40
20
2013A 2014E 2015E 2016E 2017E 2018E 2019E 2020E
21. AFFECTING MARKETS
GAS
Monitoring
WILL SAVE
AROUND 70
BILLIONS
Smart
Parking
WILL CREATE
40+ BILLIONS
OF INCOME
Water
management
CAN
GENERATE
UP TO 40
BILLIONS
Energy
management
US WILL SAVE
FROM 46 TO
117 BILLIONS
IN NEXT 20
YEARS
Smart
buildings
WILL SAVE
100 BILLIONS
BY
LOWERING
OP. COSTS
22. SECURITY
CAUSE FOR CONCERN
63% OF IT
Professionals say the IOT
poses a security threat to
their organizations.
50 BILLION
Devices will be connected to
the IOT by the end of the
decade.
7 OUT OF 10
People are concerned that a
connected appliance in their
home might result in a breach
of their personal data
63% 2020
1-,5-, 10- minutes intervals
Alarms send
Link to insulin pump
How much insulin you should take
An exercise plan that’s right for you
The number of meals and snacks you need each day
The correct types and doses of medications
IP management
Smart configuring
Geo-positioning
Calendar sync
Saving money
The Northeast blackout of 2003 was a widespread power outage that occurred throughout parts of theNortheastern and Midwestern United States and the Canadian province of Ontario on Thursday, August 14, 2003, just after 4:10 p.m. EDT.[1]
Some power was restored by 11 p.m. Many others did not get their power back until two days later. In more remote areas it took nearly a week to restore power.
The integration of sensing, communications, and control technologies with field devices in distribution systems is improving reliability and efficiency. Smart grid applications enable utilities to automatically locate and isolate faults to reduce outages, dynamically optimize voltage and reactive power levels for more efficient power use, and monitor asset health to guide maintenance. For example, the City of Chattanooga was able to instantly restore power to half of the residents affected by a severe windstorm on July 5, 2012 (from 80,000 affected customers to less than 40,000 within 2 seconds) using automated feeder switching.
IoT Presents Multiple Threats to Enterprise
The Internet of Things presents a variety of security issues because while current Internet security objectives deal with providing human users with access options, there are no human users in the IoT, meaning security objectives must be shifted to making reliable access decisions without human assistance.
Because of the IoT’s vast global presence, conventional safeguards become less effective. The dispersed nature of the IoT causes threats to privacy and the risk of extortion becomes much more subtle, but they can also be more damaging due to the highly-connected nature of the technology and all of the personal information stored within connected devices.
Luckily, there are defense options for companies looking to implement the IoT into their offices. First, existing trust models have been proven to be effective at securing large-scale information environments and reliably defending against IoT-related threats.
Second, networks can be secured by leveraging device certificates, ensuring that only authorized applications, payment cards, devices, servers and appliances can access connected systems. Third, because the required security management skills are so scarce in most enterprises, a cloud approach is the most reliable option to protecting sensitive systems.
90% of the devices collected at least one piece of personal information
70% of the devices used unencrypted network services
80% of the devices used (or allowed) poor authentication with weak passwords and poorly protected credentials.
Progress is also being made in instituting cybersecurity measures and advancing interoperability among devices and systems. Government and industry are actively developing tools, guidance, and resources necessary to develop robust cybersecurity practices within utilities. Government and industry experts are also advancing interoperability through standards development, testing, and supporting policies. Continued coordination for standards and independent testing is needed to streamline new technology integration.