12th ieee world conference on factory …...connecting individuals and machines in a new “digital...
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THE ROAD TO
INDUSTRIAL
DIGITIZATION ENRIQUE ZORZANO
Industrial Wireless Communications
12th IEEE World Conference on
Factory Communication Systems
COMMUNICATION in AUTOMATION
(WFCS 2016)
INDUSTRY DAY, 3 MAY 2016
AVEIRO, PORTUGAL
DIGITIZATION /DIGITALIZATION
NARROWNET / SIGFOX
4th Industrial Revolution?
Who knows the past, have more chances to succeed in
the future.
José Ortega y Gasset
Industrial Wireless Communications
1760 – 1860 First Industrial Revolution
From an economy based on agriculture and handicrafts
To
An economy based on Trading and Industry.
Industrial Wireless Communications
1760 – 1860 First Industrial Revolution
Watt steam engine
Industrial Wireless Communications
1870 – 1990 Second Industrial Revolution
Continuous growth of Trading and Industry thanks to
Technological Advances
– Electricity
– Diversification of oil use
Industrial Wireless Communications
1870 – 1990 Second Industrial Revolution
Electricity
Diversification of oil use
Tesla
Edison
Industrial Wireless Communications
1990 – 2010 Third Industrial Revolution
Massive utilization of Alternative’s Technologies
– Communication
– Efficient use of energy
Industrial Wireless Communications
1990 – 2010 Third Industrial Revolution
Communication (Internet)
Efficient use of energy
(Renewable energies)
Industrial Wireless Communications
1st Industrial Revolution
2nd Industrial Revolution
3rd Industrial Revolution
Catalyzer
Efficient use of energy
(Renewable energies)
DIGITIZATION
Industrial Wireless Communications
2015 – 20xx Fourth Industrial Revolution
Search for total efficiency
Industrial Wireless Communications
2015 – 20xx Fourth Industrial Revolution
Search for total efficiency
How?
Industrial Wireless Communications
2015 – 20xx Fourth Industrial Revolution
Search for total efficiency
Digital industry
Digitization / Digitalization
Industrial Wireless Communications
Digitalization
The new trending topic in the industry
Industrial Wireless Communications
DIGITIZATION
DEFINITION
Digital manufacturing and design are drawing attention from innovators
and investors alike. Sometimes referred to as “Industry 4.0” (especially in
Europe) or as the “Industrial Internet” (General Electric’s term), these
labels reflect a basket of new digitally-enabled technologies that include
advances in production equipment (including 3-D printing, robotics, and
adaptive CNC mills1), smart finished products (such as connected cars
and others using the Internet of Things), and data tools and analytics
across the value chain.
These technologies are changing how things are designed, made, and
serviced around the globe. In combination, they can create value by
connecting individuals and machines in a new “digital thread” across the
value chain—making it possible to generate, securely organize, and draw
insights from vast new oceans of data. They hold the potential for
disruptive change, analogous to the rise of consumer e-commerce. In
2010, when some two billion people connected online, the Internet
contributed approximately $1.7 trillion to global GDP.2What’s in store when
50 billion smart machines—deployed across factory floors, through supply
chains, and in consumers’ hands—can connect with one another?
http://www.mckinsey.com/business-functions/operations/our-insights/digitizing-the-value-chain
Digitizing the value chain Digital manufacturing and design Digital Transformation Industry 4.0, Forth industrial revoltution Industrial Internet (coined by GE) Etc.
A collective term embracing a number of contemporary automation, data exchange and manufacturing technologies. It had been defined as 'a collective term for technologies and concepts of value chain organization' which draws together Cyber-Physical Systems, the Internet of Things and the Internet of Services. (Wikipedia)
A collective term embracing a number of contemporary automation, data exchange and manufacturing technologies. It had been defined as 'a collective term for technologies and concepts of value chain organization' which draws together Cyber-Physical Systems, the Internet of Things and the Internet of Services. Industry 4.0 facilitates the vision and execution of a "Smart Factory". Within the modular structured Smart Factories of Industry 4.0, cyber-physical systems monitor physical processes, create a virtual copy of the physical world and make decentralized decisions. Over the Internet of Things, cyber-physical systems communicate and cooperate with each other and with humans in real time, and via the Internet of Services, both internal and cross-organizational services are offered and utilized by participants of the value chain.
Industrial Wireless Communications
DIGITIZATION
DEFINITION
Digital manufacturing and design are drawing attention from innovators
and investors alike. Sometimes referred to as “Industry 4.0” (especially in
Europe) or as the “Industrial Internet” (General Electric’s term), these
labels reflect a basket of new digitally-enabled technologies that include
advances in production equipment (including 3-D printing, robotics, and
adaptive CNC mills1), smart finished products (such as connected cars
and others using the Internet of Things), and data tools and analytics
across the value chain.
These technologies are changing how things are designed, made, and
serviced around the globe. In combination, they can create value by
connecting individuals and machines in a new “digital thread” across the
value chain—making it possible to generate, securely organize, and draw
insights from vast new oceans of data. They hold the potential for
disruptive change, analogous to the rise of consumer e-commerce. In
2010, when some two billion people connected online, the Internet
contributed approximately $1.7 trillion to global GDP.2What’s in store when
50 billion smart machines—deployed across factory floors, through supply
chains, and in consumers’ hands—can connect with one another?
http://www.mckinsey.com/business-functions/operations/our-insights/digitizing-the-value-chain
Digitizing the value chain Digital manufacturing and design Digital Transformation Industry 4.0, Forth industrial revoltution Industrial Internet (coined by GE) Etc.
How to improve industrial and commercial process, through the comprehensive analysis of data.
A collective term embracing a number of contemporary automation, data exchange and manufacturing technologies. It had been defined as 'a collective term for technologies and concepts of value chain organization' which draws together Cyber-Physical Systems, the Internet of Things and the Internet of Services. Industry 4.0 facilitates the vision and execution of a "Smart Factory". Within the modular structured Smart Factories of Industry 4.0, cyber-physical systems monitor physical processes, create a virtual copy of the physical world and make decentralized decisions. Over the Internet of Things, cyber-physical systems communicate and cooperate with each other and with humans in real time, and via the Internet of Services, both internal and cross-organizational services are offered and utilized by participants of the value chain.
Industrial Wireless Communications
4th Industrial Revolution
Catalyzer
DIGITIZATION
Industrial Wireless Communications
4th Industrial Revolution
Catalyzer
DIGITIZATION
Industrial Wireless Communications
DIGITIZATION IoT Figures (2016 -2020)
80 Billions of objects connected
3 Trillion Euros global economical impact
Industrial Wireless Communications
DIGITIZATION
Industrial Wireless Communications
IN A SINGLE DAY, A PLANE OUTFITTED WITH GE'S NEWEST ENGINES SPINS OFF A TERABYTE OF DATA FOR ANALYSIS.
DIGITIZATION
Industrial Wireless Communications
DIGITIZATION
The next phase of disruption in the manufacturing sector.
Industrial Wireless Communications
DIGITIZATION
WHAT IS IT?
ISOLATED, OPTIMIZED
PRODUCTION CELLS
FULLY INTEGRATED DATA AND
PRODUCT FLOWS ACROSS BORDERS Source: BCG
Industrial Wireless Communications
DIGITIZATION OUR POINT OF VIEW
Managing and improving industries
through the analysis of the correct data.
Industrial Wireless Communications
DIGITIZATION CHALLENGE
Correct data
€ Reasonable Cost
+
Industrial Wireless Communications
DIGITIZATION
How it works
Things Communication Data Analysis
10101
01010
00100
Industrial Wireless Communications
DIGITIZATION
How we may collaborate
Things Communication Data Analysis
Industrial Wireless Communications
BATTERY LIFE
DIGITIZATION NEW COMMUNICATION TECHNOLOGIES
RA
NG
E
LPWAN SIGFOX
PAN BLUETOOTH
LAN WIFI, ZIGBEE
WAN GPRS, GSM, LTE
Industrial Wireless Communications
Low energy
consumption
Long range
Out-of-the-box connectivity
Low-cost sensors
Low-cost maintanence
Low cost of
communications
NEW TECHNOLOGIES SIGFOX COMBINES
Industrial Wireless Communications
SIGFOX
STATE OF THE ART
SOPHISTICATED BASE STATIONS
EXTREMELY SIMPLE (AND CHEAP) SENSORS
RELIABLE NETWORK
GLOBAL ROLLOUT ONGOING
Industrial Wireless Communications
sensors base station cloud applications
SIGFOX HOW DOES IT WORK
Industrial Wireless Communications
92% Population
75% Area
NarrowNet
HAS YOU COVERED!
Industrial Wireless Communications
Lisbon Oporto
Industrial Wireless Communications
Aveiro
Industrial Wireless Communications
Aveiro
Industrial Wireless Communications
BRAZIL
AUSTRALIA
SIGFOX
Worldwide
DIGITIZATION
NEW TECHNOLOGIES ENABLE NEW SOLUTIONS
Industrial Wireless Communications
Residential alarms
Smoke detector
Industrial Wireless Communications
Connected bee hives
Soil monitoring
Industrial Wireless Communications
Monitoring fire hydrants
Automated meter reading
Industrial Wireless Communications
Industrial Wireless Communications
THE ROAD TO
INDUSTRIAL
DIGITIZATION ENRIQUE ZORZANO
Industrial Wireless Communications
12th IEEE World Conference on
Factory Communication Systems
COMMUNICATION in AUTOMATION
(WFCS 2016)
INDUSTRY DAY, 3 MAY 2016
AVEIRO, PORTUGAL