The document discusses China's progress and plans regarding the Internet of Things (IoT). It notes that China has become a leader in R&D for IoT. It outlines China's five-year plan from 2010-2015 to develop IoT clusters and build a $100 billion IoT industry by 2020. It also discusses China's IoT industry classification, major companies involved, universities offering IoT programs, consumer products/technologies, smart grid applications, and uses of IoT in transportation, water quality monitoring, and food safety tracking.
analyze the IoT (internet of things), M2M market in China, from standard, technology, market prospective. based on this analysis, the author aslo identify the current challenges and potential opputunities.
These days, in our industry, two words have the highest exposure rate. One is 5G, and the other is a smart city.
The Internet of Things, cloud computing, big data, artificial intelligence, these new concepts have emerged one after another, promoting the entire society to accelerate toward informatization, digitization, and intelligence.
Big bosses from all walks of life are keeping a close eye on technological trends, hoping to take the lead in introducing technology, improving production efficiency, and realizing digital transformation.
As a result, various hotspot terms have emerged one after another, such as 5G smart factory, 5G smart park, 5G smart agriculture, 5G smart shopping malls, and so on.
The smart city originated in the media field, which refers to the use of various information technologies or innovative concepts to open up and integrate the city's systems and services to improve the efficiency of resource utilization, optimize city management and services, and improve the quality of life of citizens.
Bambucluster's point of view on how IoT can be a key enabler of Smart Mobility/ transportation solutions. Presented on June 14th, 2017 at the the BrightTALK Internet of Everything summit:
https://summits.brighttalk.com/webinar/iot-enabled-smart-mobility-hype-or-reality/
Urban mobility has always been about moving people from location to location through motorized personal or public transport. However, the proliferation of sensors, smartphones and intelligent high bandwidth networks are compelling towns & cities around the world to re-think urban mobility and consider technology enablers to drive towards a vision of “smart” mobility. Furthermore, the fundamental assumptions underpinning mobility are being challenged.
The Internet Of Things (IotT) has been touted as a promising technology enabler to deliver on a vision of smart mobility. We will examine the current state of IoT ecosystems, IoT enabled smart mobility efforts across the globe and help delineate the architectural considerations and cross-industry industry collaboration that would be essential to successfully deliver on smart mobility initiatives. A simple use case around a town/city smart mobility service will be used to illustrate our approach.
India Internet of Things (IoT) Market Forecast and Opportunities, 2020TechSci Research
Growing need for real-time monitoring, tracking and automation coupled with favorable government initiatives to drive Internet of Things (IoT) market in India
Global IoT Managed Services – Competitive IntelligenceNetscribes
The rising proliferation of connected devices has unleashed a new breed managed service providers (MSPs) that handle the end-to-end deployment of IoT solutions. Full-service IoT MSPs act as a one-stop-shop to meet the technology integration, connectivity, regulatory, and infrastructural needs of large-scale IoT implementations. Typical features of global IoT MSPs include pre-integrated IoT infrastructure, sales enablement plans, regulatory approvals, flexible pricing models, global core as a service, among others. The key factor differentiating global IoT managed service providers from other IoT platforms is their ability to provide a complete portfolio of networks and technologies for global coverage via a SPOC approach.
This report provides a detailed comparison of 11 global IoT MSPs and a look into other business models that exist in the IoT connectivity management market.
To purchase the full report, write to us at info@netscribes.com
Visit www.netscribes.com
analyze the IoT (internet of things), M2M market in China, from standard, technology, market prospective. based on this analysis, the author aslo identify the current challenges and potential opputunities.
These days, in our industry, two words have the highest exposure rate. One is 5G, and the other is a smart city.
The Internet of Things, cloud computing, big data, artificial intelligence, these new concepts have emerged one after another, promoting the entire society to accelerate toward informatization, digitization, and intelligence.
Big bosses from all walks of life are keeping a close eye on technological trends, hoping to take the lead in introducing technology, improving production efficiency, and realizing digital transformation.
As a result, various hotspot terms have emerged one after another, such as 5G smart factory, 5G smart park, 5G smart agriculture, 5G smart shopping malls, and so on.
The smart city originated in the media field, which refers to the use of various information technologies or innovative concepts to open up and integrate the city's systems and services to improve the efficiency of resource utilization, optimize city management and services, and improve the quality of life of citizens.
Bambucluster's point of view on how IoT can be a key enabler of Smart Mobility/ transportation solutions. Presented on June 14th, 2017 at the the BrightTALK Internet of Everything summit:
https://summits.brighttalk.com/webinar/iot-enabled-smart-mobility-hype-or-reality/
Urban mobility has always been about moving people from location to location through motorized personal or public transport. However, the proliferation of sensors, smartphones and intelligent high bandwidth networks are compelling towns & cities around the world to re-think urban mobility and consider technology enablers to drive towards a vision of “smart” mobility. Furthermore, the fundamental assumptions underpinning mobility are being challenged.
The Internet Of Things (IotT) has been touted as a promising technology enabler to deliver on a vision of smart mobility. We will examine the current state of IoT ecosystems, IoT enabled smart mobility efforts across the globe and help delineate the architectural considerations and cross-industry industry collaboration that would be essential to successfully deliver on smart mobility initiatives. A simple use case around a town/city smart mobility service will be used to illustrate our approach.
India Internet of Things (IoT) Market Forecast and Opportunities, 2020TechSci Research
Growing need for real-time monitoring, tracking and automation coupled with favorable government initiatives to drive Internet of Things (IoT) market in India
Global IoT Managed Services – Competitive IntelligenceNetscribes
The rising proliferation of connected devices has unleashed a new breed managed service providers (MSPs) that handle the end-to-end deployment of IoT solutions. Full-service IoT MSPs act as a one-stop-shop to meet the technology integration, connectivity, regulatory, and infrastructural needs of large-scale IoT implementations. Typical features of global IoT MSPs include pre-integrated IoT infrastructure, sales enablement plans, regulatory approvals, flexible pricing models, global core as a service, among others. The key factor differentiating global IoT managed service providers from other IoT platforms is their ability to provide a complete portfolio of networks and technologies for global coverage via a SPOC approach.
This report provides a detailed comparison of 11 global IoT MSPs and a look into other business models that exist in the IoT connectivity management market.
To purchase the full report, write to us at info@netscribes.com
Visit www.netscribes.com
Future of Networking (5G) and The Impact on Smart Manufacturing and I.R 5.0Fabian Morais
As part of a team of four members, I carried out and assisted team mates in this research project that was given to us by DXC technology malaysia which was aim to investigate the impact of 5G on smart manufacturing and I.R 5.0. As part of this project the team completed the background research on 5G, What are the Challenges faced by Countries investing in 5G and How 5G can impact Smart Manufacturing.
A presentation that did at UKTI briefing about market opportunity in internet of things (iot) & Machine to Machine (M2M) Communication in Indian market to UK based companies
Iot basics & evolution of 3 gpp technolgies for iot connectivityKAILASH CHAUHAN
#IOT BASICS & EVOLUTION OF 3GPP TECHNOLOGIES FOR IOT CONNECTIVITY
#IOT-Internet of Things Handbook
#Cellular NW for Massive IOT
#LTE_Evolution_for_IoT_Connectivity
The years approaching 2020 will see Internet of Things (IoT) technologies enabling the interconnection of billions of devices, things and objects to achieve the efficiencies borne of innovations such as intelligent buildings and transportation systems, and smart energy and water networks.
IoT is contributing to the convergence of industry sectors, with utilities, healthcare and transportation among the many sectors with a stake in the future of IoT. The new ITU-T Study Group 20 established in June 2015 provides the specialized IoT standardization platform necessary for this convergence to rest on a cohesive set of international standards.
Today we are faced with the challenge of addressing the standardization requirements of the many vertical industries applying information and communication technologies (ICTs) as enabling technologies. This is particularly evident in the field of IoT, where IoT platforms are being developed independently, according to the specific needs of each sector. This divergence in IoT development and deployment has led to an urgent need for stakeholders to come together to mitigate the risk of data “silos” emerging in different industry sectors.
ITU-T Study Group 20 has taken up this challenge, providing government, industry and academia with a unique global platform to collaborate in the development of international IoT standards. One of the group’s primary objectives is to support the creation of an inclusive, interoperable IoT ecosystem capable of making full use of the data generated by IoT-enabled systems.
The Study Group is building on over ten years of ITU-T experience in IoT standardization, developing international standards to enable the coordinated development of IoT technologies, including radio-frequency identification, ubiquitous sensor networks and machine-to-machine communications. A central part of this study is the standardization of end-to-end architectures for IoT, and mechanisms for the interoperability of IoT applications and datasets employed by various vertical industries. An important aspect of the group’s work is the development of standards that leverage IoT technologies to address urban-development challenges.
This flipbook presents a compendium of the first set of ITU international standards for IoT, providing a resource of great value to standards experts interested in contributing to the work of ITU-T Study Group 20. This compendium is also expected to assist the wide variety of stakeholders interested in implementing these IoT standards or calling for adherence to standards in policy and regulatory frameworks relevant to IoT. This compendium will be updated continuously, according to the progress of IoT developments in ITU.
For more information on how to join ITU-T Study Group 20 on Internet of Things, please visit: http://www.itu.int/en/ITU-T/about/groups/Pages/sg20.aspx
IoT is predicted to be the huge industry with billions connected devices and enormous volume of data generated. Even Big Data will not be big enough if it is not for IoT. Telecommunication industry is destined to play some role here and this role will certainly be opening the gates to the Internet for a massive number of sensors, objects and devices. However, it is expected that connection part of the IoT value chain would vary from 0 to mere 10 percent leaving the largest portion of created value to other industry players. CSPs are definitely in the show but are the last and the least in the guest list.
Not all opportunities gone, though, and some telecommunication majors transform the business and sophisticate the product lineups to capture more value going forward. There is still time for many CSPs to figure out how to take themselves from M2M mindset into the IoT paradigm through reimagining the business and building the ecosystem before the boat is missed altogether. Where trends are heading to, what products are first to be delivered and where in the value split CSPs can have more impact? I have shared my vision on this matter and would be grateful for receiving any of your thoughts too.
Thank you!
Across the UK we are seeing more and more examples of smart city transformation. Key 'smart' sectors utilised by such Cities include transport, energy, health care, water and waste. Against the current background of economic, social, security and technological changes caused by the globalization and the integration process, cities in the UK face the challenge of combining competitiveness and sustainable urban development simultaneously.
A smart city is a place where the traditional networks and services are made more efficient with the use of digital and telecommunication technologies, for the benefit of its inhabitants and businesses. With this vision in mind, the European Union is investing in ICT research and innovation and developing policies to improve the quality of life of citizens and make cities more sustainable in view of Europe's 20-20-20 targets.
The smart city concept goes beyond the use of ICT for better resource use and less emissions. It means smarter urban transport networks, upgraded water supply and waste disposal facilities, and more efficient ways to light and heat buildings.
And it also encompasses a more interactive and responsive city administration, safer and secure public spaces.
Smart Cities UK 2017 Conference, Expo and Awards lead the way on addressing the best practice examples on smart transformation from across Cities within the United Kingdom whilst disseminating guidance and information transformation within waste, energy, transport, security and other key smart sectors.
In this presentation, Ronan de Renesse explores various scenarios where 4G retains the ability to help drive mobile data revenue growth, but without the heavy price tag. It was delivered at an event organised by Cambridge Wireless entitled '4G and Beyond: The Mobile Landscape in the UK after the LTE Auction' in London, UK, on 8 May 2013.
Artificial Intelligence in Telecom – Industry Adoption AnalysisNetscribes
The telecom industry is at the forefront of Artificial intelligence (AI) innovation and adoption. AI offers tremendous opportunities for operators to overcome network management and optimization complexities, traditional hardware dependencies, and to reduce costs. By automating decisions around resource allocation, virtualization, traffic management, and network maintenance, AI can enable more intelligent network planning. In addition, AI will be instrumental in helping operators capitalize on 5G through better planning and network capacity utilization. Given the exploding demand for speedier and more efficient data connectivity, there’s no question that success in the telecom industry will belong to companies that best utilize the power of AI.
This report evaluates the state of AI adoption in the telecom industry, while revealing the companies that are leading the charge. By buying this report, you’ll obtain keen insights into the applications of AI in telecom, investment opportunities, market gaps, and emerging expectations from telecom companies and AI-based solution providers.
To purchase the full report, write to us at info@netscribes.com
Visit www.netscribes.com
This presentation was shown at LTE World summit 2010 in Amsterdam illustrating Continuous Computing's LTE (Long Term Evolution) technologies and expertise. The presentation covers:
•Supporting early development of nontraditional products for use on LTE networks
•Building a broad ecosystem of devices in parallel with LTE deployment what should the role of the operator be?
•Removing business and technical barriers and defining new models to accelerate mass adoption of new services and devices
Evolving the service provider architecture to unleash the potential of IoT - ...FrenchWeb.fr
D'ici 2020, il y aura plus de 28 milliards d'objets connectés installés, et le marché présentera un potentiel de 7 trillions de dollars, selon les résultats de l'étude. Pour atteindre ces niveaux de performances, les infrastructures de réseau actuelles doivent cependant évoluer, pour gérer les grandes quantités de données qui seront produites, le nombre croissant de connexions qui auront lieu sur ces réseaux, ou encore assurer la sécurité de ces infrastructures.
Trai has recently invited companies for a Pilot Wi-Fi open Network. Trai relates the same with PCOs which were used to do the voice calls and were very popular hotspots before the mobile phones or home landlines became the ultimate mode of communication.
Pilot project called as Wi-Fi Access Network Interface (WANI) is planned to run on a partnership model, wherein to setup Wi-Fi hotspots (or PDOs, Public Data offices) by acquiring bandwidth from multiple Internet Service Providers (ISPs) and re-selling services as data to end customers at a lower rate
Mobile Marketing is one of 50+ sectors we track for finding highly investable startups for venture capital funds. In here, we have tracked startups across various segments like Attribution, Mobile Retargeting, Mobile Video, Native Ads, Real Time Bidding (RTB) and many more.
This sector has seen a lot of investment activity lately. The companies funded in just the last 12 months include (with total funding $): Millenial Media ($240M), Epom ($7M ), MetaMarkets ($28.5M), AppsFlyer ($7.1M ), TapStream ($700K ), TapAd (15.3M), Appier ($6M ), BlueCava ($39M ), Crosswise ($2M ), URX ($15.1M ), PlaceIQ ($27M ), Adtile ($7.2M), AdsNative ($1.5M ), Sharethrough ($28M ), Kiip ($15.4M ), MediaSpike ($5.2M ), Mnectar ($7M ), Voxel ($1.6M ), PushSpring ($1.5M),SilverPush ($1.6M ), TapCommerce ($10M ), ActionX ($5M ), Smaato ($43M), Adtheorent ($4M ), Inneractive ($14M ), Flurry ($73.3M), StrikeAd ($10.2M ), Apsalar ($14.8M ), RunAds ($1.5M ), Vungle ($25.5M )
Future of Networking (5G) and The Impact on Smart Manufacturing and I.R 5.0Fabian Morais
As part of a team of four members, I carried out and assisted team mates in this research project that was given to us by DXC technology malaysia which was aim to investigate the impact of 5G on smart manufacturing and I.R 5.0. As part of this project the team completed the background research on 5G, What are the Challenges faced by Countries investing in 5G and How 5G can impact Smart Manufacturing.
A presentation that did at UKTI briefing about market opportunity in internet of things (iot) & Machine to Machine (M2M) Communication in Indian market to UK based companies
Iot basics & evolution of 3 gpp technolgies for iot connectivityKAILASH CHAUHAN
#IOT BASICS & EVOLUTION OF 3GPP TECHNOLOGIES FOR IOT CONNECTIVITY
#IOT-Internet of Things Handbook
#Cellular NW for Massive IOT
#LTE_Evolution_for_IoT_Connectivity
The years approaching 2020 will see Internet of Things (IoT) technologies enabling the interconnection of billions of devices, things and objects to achieve the efficiencies borne of innovations such as intelligent buildings and transportation systems, and smart energy and water networks.
IoT is contributing to the convergence of industry sectors, with utilities, healthcare and transportation among the many sectors with a stake in the future of IoT. The new ITU-T Study Group 20 established in June 2015 provides the specialized IoT standardization platform necessary for this convergence to rest on a cohesive set of international standards.
Today we are faced with the challenge of addressing the standardization requirements of the many vertical industries applying information and communication technologies (ICTs) as enabling technologies. This is particularly evident in the field of IoT, where IoT platforms are being developed independently, according to the specific needs of each sector. This divergence in IoT development and deployment has led to an urgent need for stakeholders to come together to mitigate the risk of data “silos” emerging in different industry sectors.
ITU-T Study Group 20 has taken up this challenge, providing government, industry and academia with a unique global platform to collaborate in the development of international IoT standards. One of the group’s primary objectives is to support the creation of an inclusive, interoperable IoT ecosystem capable of making full use of the data generated by IoT-enabled systems.
The Study Group is building on over ten years of ITU-T experience in IoT standardization, developing international standards to enable the coordinated development of IoT technologies, including radio-frequency identification, ubiquitous sensor networks and machine-to-machine communications. A central part of this study is the standardization of end-to-end architectures for IoT, and mechanisms for the interoperability of IoT applications and datasets employed by various vertical industries. An important aspect of the group’s work is the development of standards that leverage IoT technologies to address urban-development challenges.
This flipbook presents a compendium of the first set of ITU international standards for IoT, providing a resource of great value to standards experts interested in contributing to the work of ITU-T Study Group 20. This compendium is also expected to assist the wide variety of stakeholders interested in implementing these IoT standards or calling for adherence to standards in policy and regulatory frameworks relevant to IoT. This compendium will be updated continuously, according to the progress of IoT developments in ITU.
For more information on how to join ITU-T Study Group 20 on Internet of Things, please visit: http://www.itu.int/en/ITU-T/about/groups/Pages/sg20.aspx
IoT is predicted to be the huge industry with billions connected devices and enormous volume of data generated. Even Big Data will not be big enough if it is not for IoT. Telecommunication industry is destined to play some role here and this role will certainly be opening the gates to the Internet for a massive number of sensors, objects and devices. However, it is expected that connection part of the IoT value chain would vary from 0 to mere 10 percent leaving the largest portion of created value to other industry players. CSPs are definitely in the show but are the last and the least in the guest list.
Not all opportunities gone, though, and some telecommunication majors transform the business and sophisticate the product lineups to capture more value going forward. There is still time for many CSPs to figure out how to take themselves from M2M mindset into the IoT paradigm through reimagining the business and building the ecosystem before the boat is missed altogether. Where trends are heading to, what products are first to be delivered and where in the value split CSPs can have more impact? I have shared my vision on this matter and would be grateful for receiving any of your thoughts too.
Thank you!
Across the UK we are seeing more and more examples of smart city transformation. Key 'smart' sectors utilised by such Cities include transport, energy, health care, water and waste. Against the current background of economic, social, security and technological changes caused by the globalization and the integration process, cities in the UK face the challenge of combining competitiveness and sustainable urban development simultaneously.
A smart city is a place where the traditional networks and services are made more efficient with the use of digital and telecommunication technologies, for the benefit of its inhabitants and businesses. With this vision in mind, the European Union is investing in ICT research and innovation and developing policies to improve the quality of life of citizens and make cities more sustainable in view of Europe's 20-20-20 targets.
The smart city concept goes beyond the use of ICT for better resource use and less emissions. It means smarter urban transport networks, upgraded water supply and waste disposal facilities, and more efficient ways to light and heat buildings.
And it also encompasses a more interactive and responsive city administration, safer and secure public spaces.
Smart Cities UK 2017 Conference, Expo and Awards lead the way on addressing the best practice examples on smart transformation from across Cities within the United Kingdom whilst disseminating guidance and information transformation within waste, energy, transport, security and other key smart sectors.
In this presentation, Ronan de Renesse explores various scenarios where 4G retains the ability to help drive mobile data revenue growth, but without the heavy price tag. It was delivered at an event organised by Cambridge Wireless entitled '4G and Beyond: The Mobile Landscape in the UK after the LTE Auction' in London, UK, on 8 May 2013.
Artificial Intelligence in Telecom – Industry Adoption AnalysisNetscribes
The telecom industry is at the forefront of Artificial intelligence (AI) innovation and adoption. AI offers tremendous opportunities for operators to overcome network management and optimization complexities, traditional hardware dependencies, and to reduce costs. By automating decisions around resource allocation, virtualization, traffic management, and network maintenance, AI can enable more intelligent network planning. In addition, AI will be instrumental in helping operators capitalize on 5G through better planning and network capacity utilization. Given the exploding demand for speedier and more efficient data connectivity, there’s no question that success in the telecom industry will belong to companies that best utilize the power of AI.
This report evaluates the state of AI adoption in the telecom industry, while revealing the companies that are leading the charge. By buying this report, you’ll obtain keen insights into the applications of AI in telecom, investment opportunities, market gaps, and emerging expectations from telecom companies and AI-based solution providers.
To purchase the full report, write to us at info@netscribes.com
Visit www.netscribes.com
This presentation was shown at LTE World summit 2010 in Amsterdam illustrating Continuous Computing's LTE (Long Term Evolution) technologies and expertise. The presentation covers:
•Supporting early development of nontraditional products for use on LTE networks
•Building a broad ecosystem of devices in parallel with LTE deployment what should the role of the operator be?
•Removing business and technical barriers and defining new models to accelerate mass adoption of new services and devices
Evolving the service provider architecture to unleash the potential of IoT - ...FrenchWeb.fr
D'ici 2020, il y aura plus de 28 milliards d'objets connectés installés, et le marché présentera un potentiel de 7 trillions de dollars, selon les résultats de l'étude. Pour atteindre ces niveaux de performances, les infrastructures de réseau actuelles doivent cependant évoluer, pour gérer les grandes quantités de données qui seront produites, le nombre croissant de connexions qui auront lieu sur ces réseaux, ou encore assurer la sécurité de ces infrastructures.
Trai has recently invited companies for a Pilot Wi-Fi open Network. Trai relates the same with PCOs which were used to do the voice calls and were very popular hotspots before the mobile phones or home landlines became the ultimate mode of communication.
Pilot project called as Wi-Fi Access Network Interface (WANI) is planned to run on a partnership model, wherein to setup Wi-Fi hotspots (or PDOs, Public Data offices) by acquiring bandwidth from multiple Internet Service Providers (ISPs) and re-selling services as data to end customers at a lower rate
Mobile Marketing is one of 50+ sectors we track for finding highly investable startups for venture capital funds. In here, we have tracked startups across various segments like Attribution, Mobile Retargeting, Mobile Video, Native Ads, Real Time Bidding (RTB) and many more.
This sector has seen a lot of investment activity lately. The companies funded in just the last 12 months include (with total funding $): Millenial Media ($240M), Epom ($7M ), MetaMarkets ($28.5M), AppsFlyer ($7.1M ), TapStream ($700K ), TapAd (15.3M), Appier ($6M ), BlueCava ($39M ), Crosswise ($2M ), URX ($15.1M ), PlaceIQ ($27M ), Adtile ($7.2M), AdsNative ($1.5M ), Sharethrough ($28M ), Kiip ($15.4M ), MediaSpike ($5.2M ), Mnectar ($7M ), Voxel ($1.6M ), PushSpring ($1.5M),SilverPush ($1.6M ), TapCommerce ($10M ), ActionX ($5M ), Smaato ($43M), Adtheorent ($4M ), Inneractive ($14M ), Flurry ($73.3M), StrikeAd ($10.2M ), Apsalar ($14.8M ), RunAds ($1.5M ), Vungle ($25.5M )
Cloud computing and networking course: paper presentation -Data Mining for In...Cristian Consonni
This is the presentation for the course "Cloud Computing and Networking" of the ICT Doctoral School of the University of Trento.
The paper presented is
"Data mining for internet of things: A survey."
by Tsai, Chun-Wei, et al.
(Communications Surveys & Tutorials, IEEE 16.1 (2014): 77-97.)
Power Sources for the Internet-of-Things: Markets and Strategiesn-tech Research
NanoMarkets believes that the deployments of sensors and processors for the Internet-of-Things (IoT) are creating huge new opportunities for manufacturers of power source devices. Because of IoT, power devices such as thin-film and printed batteries, energy harvesting modules, small flexible photovoltaics panels and thermoelectric sources, which have enjoyed marginal revenues up to now, may begin generating hundreds of millions of dollars in annual revenues.
However, suppliers of IoT power sources, as well as the semiconductor industry more generally face significant uncertainties in the IoT space. Not only is future of the IoT itself unclear, but also how the IoT “power infrastructure” will shape up technologically is a great unknown.
The objective of this report is to identify where the money will be made and lost in the emergent IoT power source business. It begins with an assessment of the power requirements of the various devices that NanoMarkets believes will form the “things” in the IoT. These include sensor networks, MCUs/MPUs and tagging devices, for example. The report continues by considering how established technologies such as batteries will adapt to new IoT opportunities and whether emerging technologies such as energy harvesting and thermoelectric power sources will find their first big markets as the result of IoT.
The report explores the opportunities for all industry sectors that will be impacted by the development of new power sources for the IoT. In particular we examine how leading battery companies, chipmakers, OEMs and others are preparing for the business opportunities in the IoT power source space. The report also discusses the strategies of eight firms that NanoMarkets believes will shape the market for power sources for the IoT over the next decade.
We believe that this report will be essential reading for business development and marketing executives in the battery, energy harvesting, RFID, sensors, photovoltaics and semiconductor industries, as well as the investment community. In addition to providing a thorough analysis of the IoT power source markets, this report also provides detailed eight-year forecasts of power sources for the IoT in both volume and value terms and with break outs by power source types.
- See more at: http://nanomarkets.net/market_reports/report/power-sources-for-the-internet-of-things-markets-and-strategies
M.tech communication system engineering 2019 20Vishal Waghmare
The Indian Institute of Technology Patna epitomises and reveres this limitless power in every way of its life and functioning. Established as an institute of national importance through an act of parliament in 2008, IIT Patna strives to provide world-class education and an intellectually stimulating environment in an endeavour to develop well-rounded individuals with technical and professional competence of the highest degree.
The Training and Placement Cell of the Institute handles all aspects of placements at IIT Patna for the graduating students of all departments. Right from contacting companies to managing all logistics of arranging for tests, pre-placement talks and conducting final interviews the Training and Placement Cell officials and volunteers provide their best possible assistance to the recruiters.
ZTE Communications is a quarterly peer‐reviewed technical magazine ISSN (1673‐5188). It focuses on the innovation of ICT technologies, and has been listed in major international databases. It is distributed to telecom reseachers and operators in more than 140 countries
Internet of Industrial Things Presentation - Sophie Peachey - IoT Midlands Me...WMG, University of Warwick
Sophie Peachey, Director of Innovation & Insight at Axillium Research Ltd discusses a new funding opportunity through the Advanced Manufacturing Supply Chain Initiative in the area of the Internet of Things.
2. Overview
•R&D for IoT in China is among the
best in the world
Technical
Aspect
•China has become the main
initiator and leader
International
Standards
Establishment
•Wireless networking /broadband
coverage provides a foundation to
support the progress of IoT
IoT
Infrastructure
•Internet of Things industry chain
has taken shape in China
Industry
Aspect
12%
36%
19%
33%
Market Size
RFID
Transistor
MEMS
Others
2
Copyright 2013
Corporate Immersion Institute
3. Five-year Plan for IoT
MIIT - State agency of the People's Republic of China responsible for
regulation and development of the economy in China.
2010 – 2015
Objectives
• Understand the importance of the IoT
• Correctly get the general idea of the IoT
• Assign the development of the IoT
• Guide the development of the key projects of IoT
• Create a favorable environment for the
development of the IoT
• Create 10 clusters and more than 1000 IoT firms
• Build a $100 Billion industry by 2020
3
Copyright 2013
Corporate Immersion Institute
4. IoT Industrial Classification
IoT industry China is
classified into 5 industrial
layers, with a total output
value of $45 billion.
Perception Layer
Transfer Layer
Platform Layer
Support Layer
Application Layer
22%
33%
37%
3% 5%
Market Share (Layers)
Perception
Transfer
Platform
Support
Application
4
Copyright 2013
Corporate Immersion Institute
5. Map of China's IoT Industry
5
Copyright 2013
Corporate Immersion Institute
7. Cluster 1: Bohai Rim Area
•Advances in IoT R & D; standardization, strong
regional comprehensive scientific research; a
complete IoT industry chain.
Beijing
• A technologies and industry base; focus on
collaboration of production, learning and research
but has a scattered industrial layout.
Hebei
•Focus on the development of intelligence
equipment industry chain, integrated solutions,
smart transportation and information security
sensors of IoT.
Tianjin
•Breakthroughs in demonstration projects of IoT
transportation, agriculture and animal
husbandry, energy saving and environment
protection, city management, logistics,
electricity, security, home furnishing
Shandong
7
Copyright 2013
Corporate Immersion Institute
8. Cluster 2: Yangtze River Delta
•After IoT Expo 2010, construction industry
and Shanghai IoT Center are setup to seize
the high-end IoT industry chain
Shanghai
•Aggregating the IoT industry, taking
advantage of key manufacturing units,
sticking to the strategy of ‘making the two
ends strong and the middle part excellent’ by
completing the network framework system
Zhejiang
•Sensors, integrated circuit, intelligent
computing, software and information service
industry; focus on construction of Wuxi core
industrial area and innovation parks; develop
a pilot region for applications of the IoT
Jiangsu
8
Copyright 2013
Corporate Immersion Institute
9. Cluster 3: Pearl River Delta
•Guangzhou Science City, Guangzhou Tianhe
Software Park and State Demonstration Base for
digital home application industry
Guangzhou
•Dongguan Songshan Lake National Hi-tech
industry Development Zone
Dongguan
•Innovation & Entrepreneurship Convergent
Zone in Nanhai.
Foshan
• IoT applications in transportation, logistics,
industry, electricity, water resource, finance,
medical treatment and community; established
National Super Computing Center.
Shenzhen
9
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Corporate Immersion Institute
10. Midwest Region • Intelligent transportation, food security,
environmental monitoring and disaster warning,
modern logistics, urban and rural management,
safety supervision
Sichuan
• Equipment manufacturing district and a
demonstration pilot area
Shanxi
• Optoelectronics industry; IoT Industrial Innovation
Alliance in Optical Valley; intelligent bridge,
intelligent grid, intelligent environmental monitoring
and perimeter security
Hubei
• Bearing area of IoT; industry cluster of hardware
production manufacture, software development
integration and service, and platform operation
service
Chongqing
• China Kunming Economic and Technological
Development Zone; major areas of demonstration
projects include intelligence industry, intelligence
transportation, and perception tourism
Yunnan
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12. IoT China Companies
Public companies in China have taken a significant leap in the
development and promotion of IoT
Since 2009, investment in R&D is of historic proportions
As par the five-year plan, companies are particularly
innovating in IoT for 5 industries
Electronics
• Remote Meter
Reading
• Power
Transmission/
Transformation
Monitoring
Transportation
• Traffic
Monitoring
• Vehicle
Control/
Scheduling
Logistics
• Transportation
Monitoring
• Goods
Warehousing
Security
• Video
Monitoring
• Anti-Invade
Measures
Medical
• Personal
Health Care
• Tele-Medicine
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13. Tatwah Smartech Company Ltd
Primarily engaged in the research, development, manufacture
and distribution of RFID products.
Close-Apr 19: CNY 10.73 (SHE: 002512)
Mkt Cap: $540 million
Sales: $45.06 million
Net Profit: $6.83 million
Employees: 1,503
Address: No. 9, Shuiyi South Road
Taifeng Industrial Zone Xiaolan Town
ZHONGSHAN, GNG 528415, China
+86-760-22108818 (Phone)
+86-760-22130941 (Fax)
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14. Invengo IT Company Ltd
Primarily engaged in the development and sale of RFID
technology and system solutions
Close-Apr 19: CNY 7.65 (SHE:002161)
Mkt Cap: $940 million
Sales: $58.28 million
Net Profit: $17.72 million
Employees: 430
Address: F3 Building B
T2 Hi-Tech Industrial Park South,
SHENZHEN, GNG 518057, China
+86-755-26711633 (Phone)
+86-755-26711693 (Fax)
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15. Aisino Corporation Inc
Primarily engaged in the development and application of
information security technologies, networks, software and
system integration
Close-Apr 19: CNY 13.86 (SHA:600271)
Mkt Cap: $2.35 billion
Sales: $1.68 billion
Net Profit: $161.59 million
Employees: 9,830
Address: No.18A Xingshikou street
Haidian District, Aerospace Information Park
BEIJING, BEJ 100195, China
+86-10-88896051 (Phone)
+86-10-88896055 (Fax)
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16. Xiamen Xinde Co Ltd
Primarily engaged in trading and retailing, electronic
information and property business
Close-Apr 19: CNY 7.85 (SHE:000701)
Mkt Cap: $340 million
Sales: $1.98 billion
Net Profit: $23.96 million
Employees: 1,560
Address: 2nd Floor Xin Hong Building Hu Li
XIAMEN, FUJ 361006, China
+86-592-5608098 (Phone)
+86-592-6021391 (Fax)
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17. HANGZHOU CENTURY CO.
Engaged in the research, development, production,
distribution and technical support of electronic article
surveillance (EAS) products and RFID products.
Close-Apr 19: CNY 11.58 (SHE:300078)
Mkt Cap: $320 million
Sales: $39.26 million
Net Profit: $8.73 million
Employees: +1,000
Address: No. 1418-48 Moganshan Road, Gongshu Dist.
HANGZHOU, ZHJ 310011, China
+86-571-28818665 (Phone)
+86-571-28818665 (Fax)
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22. IoT in Chinese Universities
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23. First Universities Offering Major
1. Beijing Institute of Technology University
2. Harbin Institute of Technology University
3. Harbin Engineering University
4. Nanjing University of Aeronautics and Astronautics
5. Northwestern Polytechnical University
6. Dalian Maritime University
7. Beijing University of Science and Technology
8. Beijing University of Posts and Telecommunications
9. North China Electric Power University
10. Tianjin University
11. Northeastern University at Qinhuangdao
12. Jilin University
13. Hohai University
14. Jiangnan University
15. Hefei University
16. Shandong University
17. Wuhan University
18.Huazhong University of Science and Technology
19. Wuhan Institute of Technology University
20. Central South University
21. Chongqing
22. Southwest Jiaotong University
23. University of Electronic Science and Technology
of China
24. Sichuan University
25. Xi'an Jiaotong University
26. Taiyuan University of Technology
27. Suzhou University
28. Jiangsu University of Science and Technology
29. Shandong University of Science and Technology
30. Northwestern University
31. Chengdu University
32. Zhengzhou Institute of Light Industry
33. Hunan University
Red Highlight = Universities with Experimental/R&D Laboratories 23
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24. Sample Course List
IoT Layers Core curriculum
Sensors and detection technology
The RFID principle and application
C / C + + programming
Object-oriented programming techniques
Principles of Database Design
Middleware technology
Cloud Computing
The ZigBee technology applications and wireless sensor networks
Computer networks and IPv6 technology
Communication Theory
Multi-sensor information fusion technology
Microcontroller Theory and embedded systems
Information Security
The basis of cryptography
Perception layer
Transfer layer
Support Layer
Platform layer
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26. Nodal Points
Building blocks of a Smart City
infrastructure
Multi-functional flagship portal
Networking, information sharing and
control monitoring
Features:
3-sided LED Display Panel
Interactive Information Bubble
Speakers
Keyboard & Trackball
Central control and cooling system
Docking Port
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28. Cybertecture Mirror
Made by: James Law Cybertecture
Retails for $5000 USD
Website:
http://www.cybertecturemirror.com/main.php?id=home
Main Features:
• Vanity Lighting
• Health/Weight daily monitoring
• Watch TV programs
• Live feeds from social
media/messaging
• Workout coach/guide
• Control via remote or smart phones
• Link with computer program portal
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29. Oruibo Smart Home
Modes: Wake up mode, Away mode,
Home theater mode, Return settings
Remote network control – control with
smartphone
Promotes energy conservation – cost
effective
Ready to use “out of the box”
Security system similar to ADT
Currently B2B only
Technology implemented all over
China & in Australia
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30. Intelligent Security Management Platform
Positioning management
Mobile communications
Three-dimensional display
and video linkage
Openness and scalability
Made by: Wuhan Melit
Communication Co., LTD
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31. Application
Parks
Schools
Mines
Oil drilling sites
Prisons
Construction sites
Ship management
Government agencies
The Military
Other important places
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32. Smart Grid
Intelligent power distribution networks
are under construction in 23 cities of
China
58 million intelligent electric meters
installed
38 million KW wind power and 450
thousand KW solar power have been
connected to the national Grid
Online monitoring for transmission
lines
Patrol of power transmission,
transformation and distribution
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33. The Smart City
Last year, eighteen Tier-1 cities in China formulated their
detailed smart city plans, along with 80% of Tier-2 cities
IoT applications are being developed in economic, civil life,
government management, infrastructure and cultural
environments
Major companies in this industry: Hollysys Co. Ltd., Supcon Co.
Ltd, Yokogawa Sichuan Instrument Co. Ltd
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34. Internet of Vehicles & Transportation
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35. Internet of Vehicles in China: Issues
85 million cars in 2010 and probably 200 million cars in
2020
China is the 2nd oil consumption country just behind USA,
cars take 40% of the oil consumption
• 30% oil ($55/month) is consumed on the way to find a
parking spot
Over 500,000 accidents cause 100,000 death and 40,000
~ 50,000 injured/physical disability , $50 billion loss
Traffic jam causes over 170 million/day in 15 biggest cities
Cost people 62.3 min/day ($50) in Beijing
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36. In-Car Features
Track playback, fuel consumption monitoring, route planning, car
data recorder, speed & places, video camera
Applications
"Black Box" capable of car & travel efficiency monitoring, provides
insurance benefits, helps safety (for police), can deliver
maintenance/R&D info to car manufacturers
In-Car Major
Players
Progen Enterprises Co.; Shenzhen Jinjitong Electronic Technology Co.,
Ltd.; Shenzhen DAZA Technology Co., Ltd; WinChange Technology Co.,
Ltd; Shenzhen Cheetah Intelligent Technology Co., Ltd; Shenzhen
Basihengxingye Technology Co., Ltd
Navigation
Provides information on nearby vehicles and hazards, Determines
location via sensors, contains maps displayable in human readable
format via text or in graphical format
Navigation Major
Players BDStar navigation, China Galileo Industries (CGI)
Internet of Cars
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37. Intelligent Transportation System
Provided by: National Intelligent Transport Systems
Center of Engineering and Technology-ITSC
IoT first utilized in China railway system
Current applications also include city transportation,
highways and water carriages
About 2,500 ETC stations have been opened in 22
provinces covering 80% of China express highways
Over 2.2 million users of Intelligent Transportation System
30 to 50 patents and ITS standards in 3~5 years
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38. Water Quality & Food Safety
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39. Water Quality Monitoring
Tai Hu Lake
Sensor Network
Innovation ChinaUK (ICUK)
Lake Tai Hu
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40. IoT Vegetables
The system records, collects and inquires all information of the food chain
from production, processing, packaging, storage and transportation, and
distribution to sales
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41. Cucumber Traceability
Real time monitoring/GIS technology
RFID tags attached to packaging
Consumers can scan codes to get information
regarding:
Geographical location
Company data
Processing workers and time
Farmers’ profile
Vegetable cultivation/environment
Fertilizer and drug info
Testing information etc.
Forecasting better outputs
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42. IoT in Food Safety
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43. Breeding Area and Slaughterhouse
Breed Information
Feed information
Epidemic
Prevention
Medication
Environment
RFID Tag
Create a complete
files of individual
livestock
Food security
platform data center
Breed Information
Slaughterhouse
Information
Quality
Information
RFID Tag
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44. Food Traceability
Self-inquiry Terminal Internet Inquiry Phone line Message
Livestock: Breeding Information, Slaughterhouse Information,
Quality Information, Wholesale and Retail Company Information,
Inspection and quarantine Information
Sellers
Customers
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45. Emerging Trends
IoT resources are continuing to congregate in well-developed areas
New areas in China’s IoT industry are emerging constantly
Tianjin, Kunming and Ningbo have started to focus on the
development of IoT
Areas with solid industrial foundations are focused on perception, transfer,
support and platform layer
tier-2 and tier-3 cities are focusing on the development of the
application layer
Predicted domestic need for 20 million qualified individuals in next 5 years
Areas professionals needed most: Beijing, Shanghai, Guangzhou,
Shenzen
Annual Salaries for Senior Engineers $200k-$700k
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46. For additional information and copyright
restrictions, please contact:
Professor Perry Lowe
Corporate Immersion Institute
Bentley University
Waltham, MA. 02452
plowe@bentley.edu
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Editor's Notes
In 2009, 20 Tai Hu Lake area monitoring spots in Jiangsu province installed “global eyes” measuring any quality change in water 24hrs a day and transfers info to monitoring platform for environment protection. Improves capability and monitoring levels. 3rd largest freshwater lake in china (870 sq miles).
The monitoring is made up of sensor networks located throughout the lake
ICUK is joint venture by UK and China to work on water quality management. China is taking lead on application of this technology with Tai Hu Lake and Poyang Lake, and UK team offers supplemental research. It’s based out of Queen Mary University in London and was set up in 2007. They work with China universities