1. Percorsi per una
Città Intelligente
Michele Vianello - Direttore del VEGA
Michele Vianello #nomadworker
http://www.michelecamp.it
2. Sono il Direttore Generale
del VEGA (Il Parco Scientifico e
Tecnologico di Venezia).
Mi sono occupato e mi
occupo di WEB e di Social
Media,
di Città Intelligenti.
Sono un #nomadworker.
Incubo aziende e progetto
edifici per nomadic worker.
Mi trovate su Facebook, su
Twitter, Pinterest,
su Linkedin ecc. ecc.
Se volete seguirmi, leggete il
mio blog:
http://www.michelecamp.it
p.s.sono considerato
uno“starnutitore”
v. Seth Godin
vediamo se funziona anche con
voi....
6. “E invece sono incapaci di
comprendere la tecnologia
dei social network, pensa Ben,
quindi é molto probabile che i
giorni della loro supremazia
abbiamo fatto la stessa fine
dei compact disc.”
Il re del mondo Don Winslow
Michele Vianello #nomadworker
http://www.michelecamp.it
14. The Internet of Things Leads to the Internet
of Everything
Over 50% of Internet connections are things
2011: 15+ billion permanent, 50+ billion intermittent
2020: 30+ billion permanent, >200 billion intermittent
15. The Internet of Things Leads to the Internet
of Everything
Over 50% of Internet connections are things
Remote sensing of objects 2011: 15+ billion permanent, 50+ billion intermittent
and environment 2020: 30+ billion permanent, >200 billion intermittent
Cameras and microphones
widely deployed Everything
has a URL
16. The Internet of Things Leads to the Internet
of Everything
Over 50% of Internet connections are things
Remote sensing of objects 2011: 15+ billion permanent, 50+ billion intermittent
and environment 2020: 30+ billion permanent, >200 billion intermittent
Audio $0.5
Cameras and microphones
widely deployed Everything
has a URL
2 GB flash $3
LTE
NFC
GPRS $7/Wi-Fi $3
7" 800 x 400 display $20
17. The Internet of Things Leads to the Internet
of Everything
Over 50% of Internet connections are things
Remote sensing of objects 2011: 15+ billion permanent, 50+ billion intermittent
and environment 2020: 30+ billion permanent, >200 billion intermittent
Building and New routes to
infrastructure market via
Audio $0.5 management intelligent objects
Cameras and microphones
widely deployed Everything
has a URL
2 GB flash $3
Content and services via
connected products
Augmented Situational decision
reality support
LTE
NFC
GPRS $7/Wi-Fi $3
7" 800 x 400 display $20
26. Città Intelligente?
DISPONIBILITA’ DI CONOSCENZA
“VIRTUALIZZATA”, FRUTTO DEL
DIALOGO TRA LE PERSONE E
OGGETTI (I.O.T.)
Michele Vianello #nomadworker
http://www.michelecamp.it
30. Smart People Smart Governance
Smart Mobility Smart Cities Smart Economy
Smart Environment Smart Living
http://www.smart-cities.eu/model.html Michele Vianello #nomadworker
http://www.michelecamp.it
31. 1) La città intelligente
(o..smart city) è un insieme
casuale di innovazioni???
2)in virtù di questi processi
innovativi, siamo
“automaticamente” più
intelligenti???
Michele Vianello #nomadworker
http://www.michelecamp.it
32. Gestire lo sviluppo di una
“Città Intelligente”
Michele Vianello #nomadworker
http://www.michelecamp.it
33. Gestire lo sviluppo di una
“Città Intelligente”
E’ un processo che ha come
protagonisti soggetti diversi
sia pubblici che privati (Governance)
Michele Vianello #nomadworker
http://www.michelecamp.it
34. Gestire lo sviluppo di una
“Città Intelligente”
E’ un processo che ha come
protagonisti soggetti diversi
sia pubblici che privati (Governance)
Programma di governo-
trasformazione-innovazione
CONDIVISO
Michele Vianello #nomadworker
http://www.michelecamp.it
35. Gestire lo sviluppo di una
“Città Intelligente”
E’ un processo che ha come
protagonisti soggetti diversi
sia pubblici che privati (Governance)
Programma di governo-
trasformazione-innovazione
CONDIVISO
Modello di governance
bottom up
La “Città Intelligente”
non è top down
Michele Vianello #nomadworker
http://www.michelecamp.it
36. Gestire lo sviluppo di una
“Città Intelligente”
E’ un processo che ha come
protagonisti soggetti diversi
sia pubblici che privati (Governance)
VARIABILE
Programma di governo-
trasformazione-innovazione Velocità dell’innovazione
CONDIVISO I.C.T.
(Legge di Moore)
Modello di governance
bottom up
La “Città Intelligente”
non è top down
Michele Vianello #nomadworker
http://www.michelecamp.it
37. Cosa si “condivide” nel processo
di gestione della
Città Intelligente???
Michele Vianello #nomadworker
http://www.michelecamp.it
38. Cosa si “condivide” nel processo
di gestione della
Città Intelligente???
Priorità e organizzazione
dell’infrastrutturazione ICT GESTIONE DELLE
INFRASTRUTTURE
L’articolazione delle scelte ABILITANTI
infrastrutturali
Michele Vianello #nomadworker
http://www.michelecamp.it
39. Cosa si “condivide” nel processo
di gestione della
Città Intelligente???
Priorità e organizzazione
dell’infrastrutturazione ICT GESTIONE DELLE
INFRASTRUTTURE
L’articolazione delle scelte ABILITANTI
infrastrutturali
Priorità nel transito dei BIT
(neutralità della rete e del cloud) GESTIONE DEI
DATI/
Organizzazione e gestione CONOSCENZA
del “cloud cittadino”
Michele Vianello #nomadworker
http://www.michelecamp.it
40. Organizzazione e gestione
del “cloud cittadino”-”social cloud”
Michele Vianello #nomadworker
http://www.michelecamp.it
41. Organizzazione e gestione
del “cloud cittadino”-”social cloud”
CONFERIMENTO
E QUALITA’
DEI DATI
“IGIENE DEL DATO”
Michele Vianello #nomadworker
http://www.michelecamp.it
42. Organizzazione e gestione
del “cloud cittadino”-”social cloud”
CONFERIMENTO ACCESSO
E QUALITA’ -------------
DEI DATI CONDIVISIONE
“IGIENE DEL DATO”
DEI DATI
Michele Vianello #nomadworker
http://www.michelecamp.it
43. Organizzazione e gestione
del “cloud cittadino”-”social cloud”
CONFERIMENTO ACCESSO
E QUALITA’ ------------- SENTIMENT
DEI DATI CONDIVISIONE ANALISYS
“IGIENE DEL DATO”
DEI DATI
Michele Vianello #nomadworker
http://www.michelecamp.it
44. Organizzazione e gestione
del “cloud cittadino”-”social cloud”
CONFERIMENTO ACCESSO
STRUMENTI
E QUALITA’ ------------- SENTIMENT
DI
DEI DATI CONDIVISIONE ANALISYS
“IGIENE DEL DATO” CONTROLLO
DEI DATI
Democrazia
nella
“Città Intelligente”
Michele Vianello #nomadworker
http://www.michelecamp.it
45. Organizzazione e gestione
del “cloud cittadino”-”social cloud”
CONFERIMENTO ACCESSO
STRUMENTI
E QUALITA’ ------------- SENTIMENT
DI
DEI DATI CONDIVISIONE ANALISYS
“IGIENE DEL DATO” CONTROLLO
DEI DATI
Democrazia
nella
“Città Intelligente”
THE BIG DATA
Michele Vianello #nomadworker
http://www.michelecamp.it
46. Piattaforme di social networking Piattaforme “Social Networking”
“tradizionali” Facebook, Twitter ecc. “Social Cloud”
I Dati sono
Uso del Uso I Dati sono
gratuito proprietario gratuito aperti
della
Piattaforma
Ricchezza Privata Ricchezza Sociale
Silos di dati aperti
Silos di dati chiusi
e comunicanti
Michele Vianello #nomadworker
http://www.michelecamp.it
48. PECCATI MORTALI
NON C’E’
INTERAZIONE CON IL
MONDO SOCIAL
Michele Vianello #nomadworker
http://www.michelecamp.it
49. PECCATI MORTALI
NON C’E’
INTERAZIONE CON IL
MONDO SOCIAL
NON C’E’
GENERAZIONE DI DATI
CONDIVISI
Michele Vianello #nomadworker
http://www.michelecamp.it
50. PECCATI MORTALI
NON C’E’
INTERAZIONE CON IL
MONDO SOCIAL
NON C’E’
GENERAZIONE DI DATI
CONDIVISI
SI PERDE
VALORE!!!
Michele Vianello #nomadworker
http://www.michelecamp.it
53. Gestione dei processi economici
e sociali - Creare un ecosistema innovativo
Michele Vianello #nomadworker
http://www.michelecamp.it
54. Gestione dei processi economici
e sociali - Creare un ecosistema innovativo
Amministrazione
Pubblica
Michele Vianello #nomadworker
http://www.michelecamp.it
55. Gestione dei processi economici
e sociali - Creare un ecosistema innovativo
Amministrazione
Pubblica
Università e
Istituti di Ricerca
Soggetti
Imprenditoriali
Michele Vianello #nomadworker
http://www.michelecamp.it
56. Gestione dei processi economici
e sociali - Creare un ecosistema innovativo
Amministrazione
Pubblica
Università e
Istituti di Ricerca
Soggetti
Imprenditoriali
City User
Michele Vianello #nomadworker
http://www.michelecamp.it
57. Gestione dei processi economici
e sociali - Creare un ecosistema innovativo
Amministrazione
Pubblica
SPERIMENTAZIONE
Università e
Istituti di Ricerca
Soggetti
Imprenditoriali
City User
Michele Vianello #nomadworker
http://www.michelecamp.it
58. Gestione dei processi economici
e sociali - Creare un ecosistema innovativo
Amministrazione NUOVE FORME
Pubblica DI LAVORO
SPERIMENTAZIONE
Università e
Istituti di Ricerca
Soggetti
Imprenditoriali
City User
Michele Vianello #nomadworker
http://www.michelecamp.it
59. Gestione dei processi economici
e sociali - Creare un ecosistema innovativo
Amministrazione NUOVE FORME
Pubblica DI LAVORO
SPERIMENTAZIONE
Università e SISTEMA DEGLI
Istituti di Ricerca ORARI
Soggetti
Imprenditoriali
City User
Michele Vianello #nomadworker
http://www.michelecamp.it
60. Gestione dei processi economici
e sociali - Creare un ecosistema innovativo
Amministrazione NUOVE FORME
Pubblica DI LAVORO
SPERIMENTAZIONE
Università e SISTEMA DEGLI
Istituti di Ricerca ORARI
Soggetti NUOVA
GENERAZIONE
Imprenditoriali DEL WELFARE
City User MACROTEMA/
LAVORO VITA
Michele Vianello #nomadworker
http://www.michelecamp.it
65. “Sarà una città sradicata da qualsiasi punto definito
sulla superficie della terra, configurata dalle
limitazioni della connettività e dell’ampiezza di banda,
più che dall’accessibilità e dal valore di posizione
delle proprietà, ampiamente asincrona nel suo funzionamento,
abitata da soggetti incorporei e frammentati che esistono
come collezioni di alias e di agenti elettronici.
I suoi luoghi saranno costruiti virtualmente dal
software e non più fisicamente da pietre e legno; questi
luoghi saranno collegati da legami logici al posto di porte,
passaggi e strade ”
Michele Vianello #nomadworker
http://www.michelecamp.it
67. “Un posto senza posto” 1995
“Come gli ipertesti
superano le limitazioni
della carta stampata,
così l’era post-
informazione supererà
quelle legate alla
geografia. Vivere nell’era
digitale significherà una
sempre minore
dipendenza dall’essere in
un determinato posto a
un dato momento, e
diventerà possibile
trasmettere anche il
posto.”
Michele Vianello #nomadworker
http://www.michelecamp.it
72. COWO
WIFI
INTERNET
T UP
AR
ST
VENTURE
CROWDFUNDING
INCUBATORE
SID
Michele Vianello #nomadworker
http://www.michelecamp.it
73. COWO
WIFI
INTERNET
T UP
AR
ST
VENTURE UN MONDO DI
CROWDFUNDING
LAVORATORI
INCUBATORE
NOMADI
SID
Michele Vianello #nomadworker
http://www.michelecamp.it
74. COWO
WIFI
INTERNET
T UP
AR
ST
VENTURE
CROWDFUNDING
INCUBATORE
SID
Michele Vianello #nomadworker
http://www.michelecamp.it
75. COWO
WIFI
INTERNET
T UP
AR
ST
VENTURE
CROWDFUNDING
INCUBATORE
SID
Michele Vianello #nomadworker
http://www.michelecamp.it
76. COWO
WIFI
INTERNET
T UP
AR
ST
VENTURE Unire i “caravanserragli”
CROWDFUNDING
della “via della seta digitale”
INCUBATORE
SID
Michele Vianello #nomadworker
http://www.michelecamp.it
78. 1-Liberare tutti i “data”,
2 - Visualizzare i “data”
3 - Storicizzare i “data”
4 - I “data” sono il
cervello della “città
narrante”
Michele Vianello #nomadworker
http://www.michelecamp.it
79. Naturalmente mi
interessano le vostre
idee, i vostri
suggerimenti, le vostre
critiche.
Scrivetemi sul blog,
su Facebook, su
il mio blog: http://www.michelecamp.it
Twitter.....
sono facilmente michele.vianello0@aliceposta.it
reperibile in rete!!!! michele.vianello@vegapark.ve.it
@michelevianello #nomadworker
80. GRAZIE PER L’ATTENZIONE!!!!!
Naturalmente mi
interessano le vostre
idee, i vostri
suggerimenti, le vostre
critiche.
Scrivetemi sul blog,
su Facebook, su
il mio blog: http://www.michelecamp.it
Twitter.....
sono facilmente michele.vianello0@aliceposta.it
reperibile in rete!!!! michele.vianello@vegapark.ve.it
@michelevianello #nomadworker
Notas del editor
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The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n
The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n
The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n
The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n
The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n
The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n
The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n
The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n
The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n
The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n
The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n
The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n
The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n
The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n
The Internet of Things (IoT) is a concept that describes how the Internet will expand as physical items such as consumer devices and physical assets are connected to the Internet. The vision and concept have existed for years; however, there has been an acceleration in the number and types of things that are being connected and in the technologies for identifying, sensing and communicating. This leads to the important trend of imbuing IT tools and practices into operational technology (OT), plus value can be gained when these newly smart and connected objects can be linked to traditional IT systems to inject purchases and other business transactions. They can also use this link to receive updated behavioral orders, adjusting the way those OT objects act to the situation and the objectives determined by the business strategy and IT systems. Key elements of the IoT include:\nEmbedded sensors: Sensors that detect and communicate changes (e.g., accelerometers, GPS, compasses, cameras) are being embedded not just in mobile devices but in an increasing number of places and objects. \nImage recognition: Image recognition technologies strive to identify objects, people, buildings, places, logos and anything else that has value to consumers and enterprises. Smartphones and tablets equipped with cameras have pushed this technology from mainly industrial applications to broad consumer and enterprise applications.\nNFC payment: NFC allows users to make payments by waving their mobile phone in front of a compatible reader. Once NFC is embedded in a critical mass of phones for payment, industries such as public transportation, airlines, retail and healthcare can explore other areas in which NFC technology can improve efficiency and customer service.\n