A somewhat "glass half empty" take on IoT.
Expanded version of my earlier MoMoEdi talk given at the Mobile Monday Global Pow Wow at Mobikon in Frankfurt on May 11th 2015
The “other side” of MWC: IoT’s turn for the Kool-Aid?Geoff Ballinger
This document discusses issues around defining and securing the Internet of Things (IoT). It notes differing definitions of IoT and questions who or what IoT refers to. Concerns are raised about the security challenges of connecting large numbers of low-power devices for many years without updates. The potential end of privacy and importance of security is highlighted. Finally, it questions how various entities like telecom companies and IoT companies will relate to one another.
Build your IoT project with Libelium devices: from sensors to the cloud (Libe...AGILE IoT
This document discusses Libelium's IoT devices and platforms for various applications. It highlights Waspmote as Libelium's standard IoT platform and describes its sensor boards for uses like smart cities, agriculture, and environmental monitoring. Specific IoT use cases are outlined, such as river flood detection, smart strawberry crop monitoring, and water quality monitoring. Cooking Hacks products are also mentioned. The document concludes by advertising a live demo of sensor nodes sending data to a Raspberry Pi and cloud.
The document discusses how IoT can make imported food supply chains more efficient, cheaper, and environmentally friendly. It explains that IoT allows physical objects to collect and exchange data. This enables monitoring food from farm to fork, improving logistics to reduce carbon emissions from air freight by using ground transport when possible. Sensors along the supply chain could track conditions like temperature to preserve freshness and reduce waste. Connecting the entire supply chain process via an end-to-end IoT system allows optimizing each step for lower costs and greenhouse gas emissions.
Enabling the IoT with Sensors, Communication Protocols and the CloudSIPRI
The document discusses enabling the Internet of Things through sensors, communications, and cloud infrastructure. It highlights Libelium as a company providing standardized IoT platforms, and gives examples of their technology being used in smart city projects in Santander, Spain and Serbia to implement solutions like smart parking, environmental monitoring, and smart lighting through wireless sensor networks.
This is a copy of a presentation I gave at IGF Ukraine in Kiev on 4 September 2010.
It provides a few leads to participants on where we're heading as far as the Future of the Internet is concerned.
5G will provide high-speed internet, ubiquitous service, and unlock solutions to many problems. However, since 4G and 3G networks are still being implemented in many areas, the future of 5G is unclear. 5G is designed to offer incredible data capabilities, unlimited call volume, and vast data broadcasting through an advanced mobile system. It will interconnect the entire world without limits and provide universal access to information and communication that will change lifestyles. Governments can use 5G to support good governance and create healthy environments.
5G technology will provide high-speed wireless connectivity anywhere, enabling a wide range of applications. It will standardize global networks, provide connectivity everywhere through its advanced networking capabilities. 5G's high speeds of 10-20 Gbps will allow for real-time streaming of high quality video and virtual/augmented reality. It will also enable smart cities through applications like traffic management and smart infrastructure. 5G is crucial for connecting billions of devices in the Internet of Things through its ability to handle huge volumes of data collection and transmission with low latency.
The “other side” of MWC: IoT’s turn for the Kool-Aid?Geoff Ballinger
This document discusses issues around defining and securing the Internet of Things (IoT). It notes differing definitions of IoT and questions who or what IoT refers to. Concerns are raised about the security challenges of connecting large numbers of low-power devices for many years without updates. The potential end of privacy and importance of security is highlighted. Finally, it questions how various entities like telecom companies and IoT companies will relate to one another.
Build your IoT project with Libelium devices: from sensors to the cloud (Libe...AGILE IoT
This document discusses Libelium's IoT devices and platforms for various applications. It highlights Waspmote as Libelium's standard IoT platform and describes its sensor boards for uses like smart cities, agriculture, and environmental monitoring. Specific IoT use cases are outlined, such as river flood detection, smart strawberry crop monitoring, and water quality monitoring. Cooking Hacks products are also mentioned. The document concludes by advertising a live demo of sensor nodes sending data to a Raspberry Pi and cloud.
The document discusses how IoT can make imported food supply chains more efficient, cheaper, and environmentally friendly. It explains that IoT allows physical objects to collect and exchange data. This enables monitoring food from farm to fork, improving logistics to reduce carbon emissions from air freight by using ground transport when possible. Sensors along the supply chain could track conditions like temperature to preserve freshness and reduce waste. Connecting the entire supply chain process via an end-to-end IoT system allows optimizing each step for lower costs and greenhouse gas emissions.
Enabling the IoT with Sensors, Communication Protocols and the CloudSIPRI
The document discusses enabling the Internet of Things through sensors, communications, and cloud infrastructure. It highlights Libelium as a company providing standardized IoT platforms, and gives examples of their technology being used in smart city projects in Santander, Spain and Serbia to implement solutions like smart parking, environmental monitoring, and smart lighting through wireless sensor networks.
This is a copy of a presentation I gave at IGF Ukraine in Kiev on 4 September 2010.
It provides a few leads to participants on where we're heading as far as the Future of the Internet is concerned.
5G will provide high-speed internet, ubiquitous service, and unlock solutions to many problems. However, since 4G and 3G networks are still being implemented in many areas, the future of 5G is unclear. 5G is designed to offer incredible data capabilities, unlimited call volume, and vast data broadcasting through an advanced mobile system. It will interconnect the entire world without limits and provide universal access to information and communication that will change lifestyles. Governments can use 5G to support good governance and create healthy environments.
5G technology will provide high-speed wireless connectivity anywhere, enabling a wide range of applications. It will standardize global networks, provide connectivity everywhere through its advanced networking capabilities. 5G's high speeds of 10-20 Gbps will allow for real-time streaming of high quality video and virtual/augmented reality. It will also enable smart cities through applications like traffic management and smart infrastructure. 5G is crucial for connecting billions of devices in the Internet of Things through its ability to handle huge volumes of data collection and transmission with low latency.
Matthew Bailey IoT Keynote - Future of Wireless, Humanity and our PlanetMatthew Bailey
This document discusses the potential opportunities and applications of Internet of Things (IoT) technology, with a focus on smart cities and rural applications. It describes how IoT sensors could be used to monitor environments, infrastructure, agriculture and disasters. It also introduces Low Power Wide Area Networks (LPWANs) as a way to connect IoT devices over long ranges using little power. LPWANs are presented as a way to enable new IoT solutions and business cases in cities as well as more remote locations. The document argues that widespread deployment of IoT sensors, combined with LPWAN connectivity, could help optimize resource use, increase agricultural yields, and improve disaster response.
Libelium: Enabling the Internet of Things - J. Martinez @ Bosch Connected Wor...SIPRI
The document discusses enabling the Internet of Things through the use of sensors, communication technologies, and cloud infrastructure. It notes that there are three common elements to all IoT projects - sensors that collect data, communication protocols to transmit the data, and cloud systems to analyze and store the information. The document provides an overview of opportunities and challenges in applying IoT technologies to different markets like smart cities and agriculture. It also highlights examples of how sensor data can be integrated into existing software and systems.
The 5G architecture uses an entirely IP-based model to integrate various radio access technologies and provide quality service through cognitive radio technology. It converges different networks on a 5G MasterCore that can efficiently operate in parallel modes to control all networks and enable new combined services globally through an innovative World Combination Service Mode.
Libelium: IoT in the real world- wireless sensor networks and their endless a...SIPRI
This document summarizes a presentation about wireless sensor networks and Internet of Things applications from Libelium, a company that develops hardware and software for IoT solutions. It discusses Libelium's Waspmote platform, which allows customers to monitor various parameters anywhere using wireless sensor nodes. The presentation outlines Libelium's business model of providing a horizontal hardware platform and developing vertical solutions across multiple industries like smart cities, agriculture, and water quality monitoring. It provides examples of installed smart city projects in Serbia and Spain and discusses both technical and coordination challenges of large IoT deployments.
A PRESENTATION IS ABOUT UPCOMING 5G TECHNOLOGY IN INDIA IT'S FEATURE AND COUSES AND EFFECT RESEARCHES BY PRADEEP POTTER
INFO.
INSTA - @pradeeppotter_ca
EMAIL- Pradippotter@gmail.com
This document discusses the convergence of 5G and Internet of Things (IoT) technologies. It begins by defining each technology individually, with 5G offering speeds up to 20Gbps and lower latency compared to 4G, while IoT refers to an ecosystem of connected devices that collect and analyze physical data. The document then explains how 5G can improve all components of IoT by providing more bandwidth for sensors, faster network transmission, enabling real-time cloud/AI processing, and supporting more advanced applications. Several applications of 5G in IoT are described, such as for automotive, industrial and healthcare use cases. Finally, some challenges of the technologies converging are presented, such as operating across spectrum bands and establishing business models
Sensor devices and connected "Things" are becoming more widely available for both personal and business use, allowing various devices and infrastructure to be interconnected in complex networks. This brings opportunities for technology trends around Internet of Things to impact many areas of life, with applications already emerging in transportation, healthcare, security, and daily activities. Key enabling technologies include RFID, WiFi, barcodes, ZigBee, and sensors in smartphones. The future of IoT is expected to include worldwide sensor networks, expanded home automation and monitoring of daily life, improved logistics and shipping tracking, advanced healthcare applications, though the space remains unpredictable.
Telecommunication trends in 2013 and beyondAhmad Yokasano
The document summarizes several trends expected in the mobile telecom industry in 2013 based on research from various sources:
1) Machine-to-machine communication (M2M) is expected to significantly increase, with the number of M2M connections growing from 2.4 billion in 2012 to an estimated 18 billion in 2022.
2) Peer-to-peer mobile messaging services are predicted to overtake SMS messaging on smartphones as internet-based messaging becomes more widely used and data plans become more affordable and ubiquitous.
3) SMS providers will seek new ways to extend the lifespan of SMS by targeting enterprise communication needs including banking, healthcare, education, advertising and government where SMS is still needed to reach the
This document discusses the Internet of Things (IoT) and introduces the Waspmote platform as a standard solution for IoT projects. It describes how Waspmote can integrate different sensors and communication protocols to send data to various information systems. Examples are provided of how Waspmote has been used for applications like smart cities, environmental monitoring, health monitoring, and tracking radiation levels. The business model involves partnering with system integrators to access a wide range of markets with Waspmote's horizontal and customizable design.
Sequans is a company that has focused on optimizing 4G solutions for over a decade, shipping tens of millions of units across six generations. 4G has seen faster adoption than any other wireless technology and supports applications beyond smartphones like fixed access, video broadcast, public safety, and vertical applications including machine-to-machine communication and the Internet of things. 4G enables multiple M2M applications across various industries like utilities, security, healthcare, automotive, commerce, industrial, consumer, and transportation. 5G is expected to bring even higher throughput, ubiquitous coverage, higher capacity, new frequency bands and spectrum, cognitive radio, improved broadcast, and dedicated Internet of things networks.
Barcelona Smart City is a world reference for Smart Cities. Urban planning, ecology and information technology are slated to reach into every neighborhood, to improve citizens’ quality of life. Barcelona is the first municipality to develop its own Smart City platform. The Barcelona City Council designed an open source IoT software suite called Sentilo, and use it to monitor noise and air pollution. Initial installation took place in a large, public city square. Subsequent deployments blanket the city, and other cities have been eager to adopt the platform.
In this talk, Alicia Asin covers the challenges, actions and projected outcomes for Smart City measures, citing best practices for the global cities taking a long-term view on technology in the best interest of their citizens. Lighting, Energy, Water, Transportation are crucial to cities; air quality and noise pollution touch the citizens acutely. Open Data initiatives make municipal activities transparent.
The document discusses mobility trends and the future of software. It notes that there are now over 4 billion mobile subscribers worldwide, with growing adoption across countries. Technologies like accelerometers, cameras, GPS and touchscreens are enabling new mobile applications and experiences. The evolution of mobility will focus on connecting seamlessly across networks and devices. This will require integrating different wireless and wired networks transparently. The future will involve connecting people to things and things to things. The rise of mobile devices from different platforms creates new opportunities and challenges for software vendors around distribution, licensing models and revenue.
1. Small internet carriers - https://globalnews.ca/news/7904273/crtc-independent-internet-providers/
2. 6G https://www.digitaltrends.com/mobile/what-is-6g/ and China - https://www.globaltimes.cn/page/202106/1225478.shtml
3. 5G and security - https://www.securitymagazine.com/blogs/14-security-blog/post/94816-managing-the-5g-risks-in-an-unified-and-standardized-way
4. OpenRan - https://www.ericsson.com/en/blog/2021/5/exploring-new-centralized-ran-and-fronthaul-opportunities
5. Internet - https://www.internetworldstats.com/asia.htm
6. Huawei - https://www.bnnbloomberg.ca/bt-s-700-million-job-to-rip-and-replace-huawei-5g-begins-here-1.1603635
7. India - https://foreignpolicy.com/2021/05/18/india-draws-a-line-in-the-5g-sand/
8. Streaming - https://www.reuters.com/technology/disney-q2-subscriber-additions-slow-outlook-still-bright-jpmorgan-2021-05-14/
9. Internet and regulations - https://www.michaelgeist.ca/2021/05/not-just-big-techbillc10/
10. Australia - https://www.cnn.com/2021/02/24/media/australia-media-legislation-facebook-intl-hnk/index.html
Kade Miller from Thinxtra, the Sigfox operator in Australia, New Zealand and Hong Kong, presents on what is the Sigfox network, what it is used for and what opportunities exist for Xamarin Developers.
INDUSTRY TRENDS IN TELECOMMUNICATION Midterm ICT-IS2A DhanRyanGuines
This document discusses industry trends in telecommunications. It begins by defining telecommunications as communication over distances using electrical or electromagnetic signals, such as telephone networks, radio, computer networks, and the internet. It then lists major telecom companies in the Philippines and the top 10 worldwide telecom companies. The top 3 industry trends discussed are 5G wireless technology, the growth of the Internet of Things (IoT), and increased use of cloud computing and hybrid cloud models.
A basic presentation on 5G technology.
Link for download: https://www.file-upload.com/95p58noyz815
Email me for personalised work : firefisthaan@gmail.com
5G technology offers several advantages for students, professionals, and the general public including higher bandwidth, more connections, and the ability to access services from anywhere in the world. However, it also has some disadvantages such as the need for continued research and development to achieve very high speeds, requiring upgrades to incompatible devices which are expensive, and the high cost of developing new 5G infrastructure. It also has security and privacy issues that still need to be addressed.
TBIG Group provides telecommunication infrastructure and services to operators in Indonesia, including towers, monopoles, microcells, and fiber optic networks. As of Q3 2015, TBIG had over 12,000 towers across Indonesia serving more than 19,000 tenants. TBIG infrastructure supports Indonesia's growing digital economy by providing indoor and outdoor wireless coverage, as well as transmission networks, to connect more of the country. Challenges to expanding coverage include limitations on space, permits, regulations, and issues maintaining equipment. TBIG works to address these challenges and support Indonesia's digital transformation through initiatives like site sharing, expanding coverage to new areas, and accelerating broadband deployment.
3G is a wireless technology that provides faster streaming and higher bandwidth compared to previous technologies. It allows users to make calls, download data, and use multimedia applications like video and email from their mobile devices. While 3G networks currently support data speeds up to 2Mbps, future improvements may expand their capabilities and allow for new applications by keeping users connected online at all times.
a quick primer on the Internet of Things.
this presentation was a guest lecture for students to get a quick introduction to the Internet of Things, see some live demos and experiment with Evothings Studio, Arduino and their iOS devices at Hyper Island in Stockholm, Sweden.
The document discusses the challenges facing the Internet of Things (IoT) ecosystem. It notes that while IoT has been around for years and includes billions of devices, most current "solutions" require proprietary apps or ecosystems. This fragmentation poses problems for interoperability, scalability, and providing users with a seamless experience. The document argues that an open approach is needed to address these issues, through open standards, cross-manufacturer collaboration, and open source initiatives. It maintains that openness is key to overcoming technical challenges around interoperability, ease of setup, and supporting the large volumes and broad categories of devices that will be needed for IoT to see widespread adoption.
Matthew Bailey IoT Keynote - Future of Wireless, Humanity and our PlanetMatthew Bailey
This document discusses the potential opportunities and applications of Internet of Things (IoT) technology, with a focus on smart cities and rural applications. It describes how IoT sensors could be used to monitor environments, infrastructure, agriculture and disasters. It also introduces Low Power Wide Area Networks (LPWANs) as a way to connect IoT devices over long ranges using little power. LPWANs are presented as a way to enable new IoT solutions and business cases in cities as well as more remote locations. The document argues that widespread deployment of IoT sensors, combined with LPWAN connectivity, could help optimize resource use, increase agricultural yields, and improve disaster response.
Libelium: Enabling the Internet of Things - J. Martinez @ Bosch Connected Wor...SIPRI
The document discusses enabling the Internet of Things through the use of sensors, communication technologies, and cloud infrastructure. It notes that there are three common elements to all IoT projects - sensors that collect data, communication protocols to transmit the data, and cloud systems to analyze and store the information. The document provides an overview of opportunities and challenges in applying IoT technologies to different markets like smart cities and agriculture. It also highlights examples of how sensor data can be integrated into existing software and systems.
The 5G architecture uses an entirely IP-based model to integrate various radio access technologies and provide quality service through cognitive radio technology. It converges different networks on a 5G MasterCore that can efficiently operate in parallel modes to control all networks and enable new combined services globally through an innovative World Combination Service Mode.
Libelium: IoT in the real world- wireless sensor networks and their endless a...SIPRI
This document summarizes a presentation about wireless sensor networks and Internet of Things applications from Libelium, a company that develops hardware and software for IoT solutions. It discusses Libelium's Waspmote platform, which allows customers to monitor various parameters anywhere using wireless sensor nodes. The presentation outlines Libelium's business model of providing a horizontal hardware platform and developing vertical solutions across multiple industries like smart cities, agriculture, and water quality monitoring. It provides examples of installed smart city projects in Serbia and Spain and discusses both technical and coordination challenges of large IoT deployments.
A PRESENTATION IS ABOUT UPCOMING 5G TECHNOLOGY IN INDIA IT'S FEATURE AND COUSES AND EFFECT RESEARCHES BY PRADEEP POTTER
INFO.
INSTA - @pradeeppotter_ca
EMAIL- Pradippotter@gmail.com
This document discusses the convergence of 5G and Internet of Things (IoT) technologies. It begins by defining each technology individually, with 5G offering speeds up to 20Gbps and lower latency compared to 4G, while IoT refers to an ecosystem of connected devices that collect and analyze physical data. The document then explains how 5G can improve all components of IoT by providing more bandwidth for sensors, faster network transmission, enabling real-time cloud/AI processing, and supporting more advanced applications. Several applications of 5G in IoT are described, such as for automotive, industrial and healthcare use cases. Finally, some challenges of the technologies converging are presented, such as operating across spectrum bands and establishing business models
Sensor devices and connected "Things" are becoming more widely available for both personal and business use, allowing various devices and infrastructure to be interconnected in complex networks. This brings opportunities for technology trends around Internet of Things to impact many areas of life, with applications already emerging in transportation, healthcare, security, and daily activities. Key enabling technologies include RFID, WiFi, barcodes, ZigBee, and sensors in smartphones. The future of IoT is expected to include worldwide sensor networks, expanded home automation and monitoring of daily life, improved logistics and shipping tracking, advanced healthcare applications, though the space remains unpredictable.
Telecommunication trends in 2013 and beyondAhmad Yokasano
The document summarizes several trends expected in the mobile telecom industry in 2013 based on research from various sources:
1) Machine-to-machine communication (M2M) is expected to significantly increase, with the number of M2M connections growing from 2.4 billion in 2012 to an estimated 18 billion in 2022.
2) Peer-to-peer mobile messaging services are predicted to overtake SMS messaging on smartphones as internet-based messaging becomes more widely used and data plans become more affordable and ubiquitous.
3) SMS providers will seek new ways to extend the lifespan of SMS by targeting enterprise communication needs including banking, healthcare, education, advertising and government where SMS is still needed to reach the
This document discusses the Internet of Things (IoT) and introduces the Waspmote platform as a standard solution for IoT projects. It describes how Waspmote can integrate different sensors and communication protocols to send data to various information systems. Examples are provided of how Waspmote has been used for applications like smart cities, environmental monitoring, health monitoring, and tracking radiation levels. The business model involves partnering with system integrators to access a wide range of markets with Waspmote's horizontal and customizable design.
Sequans is a company that has focused on optimizing 4G solutions for over a decade, shipping tens of millions of units across six generations. 4G has seen faster adoption than any other wireless technology and supports applications beyond smartphones like fixed access, video broadcast, public safety, and vertical applications including machine-to-machine communication and the Internet of things. 4G enables multiple M2M applications across various industries like utilities, security, healthcare, automotive, commerce, industrial, consumer, and transportation. 5G is expected to bring even higher throughput, ubiquitous coverage, higher capacity, new frequency bands and spectrum, cognitive radio, improved broadcast, and dedicated Internet of things networks.
Barcelona Smart City is a world reference for Smart Cities. Urban planning, ecology and information technology are slated to reach into every neighborhood, to improve citizens’ quality of life. Barcelona is the first municipality to develop its own Smart City platform. The Barcelona City Council designed an open source IoT software suite called Sentilo, and use it to monitor noise and air pollution. Initial installation took place in a large, public city square. Subsequent deployments blanket the city, and other cities have been eager to adopt the platform.
In this talk, Alicia Asin covers the challenges, actions and projected outcomes for Smart City measures, citing best practices for the global cities taking a long-term view on technology in the best interest of their citizens. Lighting, Energy, Water, Transportation are crucial to cities; air quality and noise pollution touch the citizens acutely. Open Data initiatives make municipal activities transparent.
The document discusses mobility trends and the future of software. It notes that there are now over 4 billion mobile subscribers worldwide, with growing adoption across countries. Technologies like accelerometers, cameras, GPS and touchscreens are enabling new mobile applications and experiences. The evolution of mobility will focus on connecting seamlessly across networks and devices. This will require integrating different wireless and wired networks transparently. The future will involve connecting people to things and things to things. The rise of mobile devices from different platforms creates new opportunities and challenges for software vendors around distribution, licensing models and revenue.
1. Small internet carriers - https://globalnews.ca/news/7904273/crtc-independent-internet-providers/
2. 6G https://www.digitaltrends.com/mobile/what-is-6g/ and China - https://www.globaltimes.cn/page/202106/1225478.shtml
3. 5G and security - https://www.securitymagazine.com/blogs/14-security-blog/post/94816-managing-the-5g-risks-in-an-unified-and-standardized-way
4. OpenRan - https://www.ericsson.com/en/blog/2021/5/exploring-new-centralized-ran-and-fronthaul-opportunities
5. Internet - https://www.internetworldstats.com/asia.htm
6. Huawei - https://www.bnnbloomberg.ca/bt-s-700-million-job-to-rip-and-replace-huawei-5g-begins-here-1.1603635
7. India - https://foreignpolicy.com/2021/05/18/india-draws-a-line-in-the-5g-sand/
8. Streaming - https://www.reuters.com/technology/disney-q2-subscriber-additions-slow-outlook-still-bright-jpmorgan-2021-05-14/
9. Internet and regulations - https://www.michaelgeist.ca/2021/05/not-just-big-techbillc10/
10. Australia - https://www.cnn.com/2021/02/24/media/australia-media-legislation-facebook-intl-hnk/index.html
Kade Miller from Thinxtra, the Sigfox operator in Australia, New Zealand and Hong Kong, presents on what is the Sigfox network, what it is used for and what opportunities exist for Xamarin Developers.
INDUSTRY TRENDS IN TELECOMMUNICATION Midterm ICT-IS2A DhanRyanGuines
This document discusses industry trends in telecommunications. It begins by defining telecommunications as communication over distances using electrical or electromagnetic signals, such as telephone networks, radio, computer networks, and the internet. It then lists major telecom companies in the Philippines and the top 10 worldwide telecom companies. The top 3 industry trends discussed are 5G wireless technology, the growth of the Internet of Things (IoT), and increased use of cloud computing and hybrid cloud models.
A basic presentation on 5G technology.
Link for download: https://www.file-upload.com/95p58noyz815
Email me for personalised work : firefisthaan@gmail.com
5G technology offers several advantages for students, professionals, and the general public including higher bandwidth, more connections, and the ability to access services from anywhere in the world. However, it also has some disadvantages such as the need for continued research and development to achieve very high speeds, requiring upgrades to incompatible devices which are expensive, and the high cost of developing new 5G infrastructure. It also has security and privacy issues that still need to be addressed.
TBIG Group provides telecommunication infrastructure and services to operators in Indonesia, including towers, monopoles, microcells, and fiber optic networks. As of Q3 2015, TBIG had over 12,000 towers across Indonesia serving more than 19,000 tenants. TBIG infrastructure supports Indonesia's growing digital economy by providing indoor and outdoor wireless coverage, as well as transmission networks, to connect more of the country. Challenges to expanding coverage include limitations on space, permits, regulations, and issues maintaining equipment. TBIG works to address these challenges and support Indonesia's digital transformation through initiatives like site sharing, expanding coverage to new areas, and accelerating broadband deployment.
3G is a wireless technology that provides faster streaming and higher bandwidth compared to previous technologies. It allows users to make calls, download data, and use multimedia applications like video and email from their mobile devices. While 3G networks currently support data speeds up to 2Mbps, future improvements may expand their capabilities and allow for new applications by keeping users connected online at all times.
a quick primer on the Internet of Things.
this presentation was a guest lecture for students to get a quick introduction to the Internet of Things, see some live demos and experiment with Evothings Studio, Arduino and their iOS devices at Hyper Island in Stockholm, Sweden.
The document discusses the challenges facing the Internet of Things (IoT) ecosystem. It notes that while IoT has been around for years and includes billions of devices, most current "solutions" require proprietary apps or ecosystems. This fragmentation poses problems for interoperability, scalability, and providing users with a seamless experience. The document argues that an open approach is needed to address these issues, through open standards, cross-manufacturer collaboration, and open source initiatives. It maintains that openness is key to overcoming technical challenges around interoperability, ease of setup, and supporting the large volumes and broad categories of devices that will be needed for IoT to see widespread adoption.
This document provides an overview of the Internet of Things (IoT) including:
1) A definition of IoT and discussion of its vision to create a network of billions of connected devices.
2) Descriptions of the key enablers that allow IoT to function such as smart devices, communication networks, cloud computing, and sensors.
3) An outline of some of the major challenges with IoT including handling big data, security, bandwidth issues, standardization, and power consumption.
4) Examples of applications of IoT in areas like healthcare, infrastructure, automotive, and connected vehicles.
Take a look at the 5G-IoT future. The Internet of Things (IoT) offers a connected future with smart homes, cars, and wearables, powered by 5G. Discover exciting possibilities for 5G and IoT.
Jim McKeeth of Embarcadero Technologies gave a presentation on the Internet of Things (IoT) and development considerations. He discussed how everyday devices are increasingly connecting to the internet and how the value of the IoT network increases exponentially as more things connect. McKeeth covered opportunities in various industries, common device types and connectivity standards used in IoT. He emphasized avoiding lock-in to specific networks or platforms and addressed privacy, security and legal issues for developers to consider when creating IoT solutions.
5G has been projected as a catalyst in driving the adoption of AI, IoT and robotics. The security environment as we know in a pre-5G world is already relatively complex. Various discussions over its security concern are being raised, in anticipation of 5G especially in its use in IoT and autonomous systems.
The speaker intends to place the application of 5G in perspective of enterprise ecosystem. By breaking down the ecosystem into components, reviewing the concerns and requirements, the resolution and implementation of security controls could be mapped into respective roles, such as telco engineer, IoT developer, security professional and enterprise architect. Bringing us to a shared responsibility model, the key to creating a more secure 5G and IoT environment.
The Internet of Things (IoT) is the network of physical objects or "things" embedded with electronics, software, sensors, and network connectivity, which enables these objects to collect and exchange data. .The Internet of Things allows objects to be sensed and controlled remotely across existing network infrastructure .
This presentation provides an overview of the Internet of Things (IoT). It defines IoT as interconnected computing devices, objects, animals or people that are provided with identifiers to transfer data over a network. The presentation outlines key features of IoT like intelligence, connectivity, sensing, expressing, energy and safety. It discusses technologies enabling IoT such as RFID, WiFi, barcodes, ZigBee and sensors. Examples of IoT applications mentioned include environmental monitoring, infrastructure management, industrial uses, energy management, healthcare, home automation and transport. Advantages include improved communication, automation, monitoring and efficiency while disadvantages include compatibility, privacy and security issues. The future of IoT is predicted to include world sensor networks, home
The document discusses the Internet of Things (IoT) and its applications. It defines IoT as a global network that connects physical objects through standard communication protocols. These connected physical objects, or "things", can sense and interact with their environment and exchange data with other things and systems. The document outlines several technologies used in IoT like RFID, WiFi, ZigBee, and sensors. It provides examples of IoT applications in areas such as transportation/logistics, healthcare, security, and daily life. The document also discusses issues around privacy and security with IoT and envisions a future with widespread sensor networks and increased device connectivity.
The design space for IoT devices is very different from that for mobile or cloud processors. Both mobile and cloud systems require huge chips. IoT devices
should operate at deficient power levels but often not work continuously. They must integrate processors, memory and storage, communication, and sensors.
https://www.ducatindia.com/datascienceusingpython
The document discusses the Internet of Things (IoT). It defines IoT as a system of interrelated computing devices that can transfer data over a network without human interaction. An IoT system integrates sensors that collect data, connectivity methods to transfer the data to the cloud, data processing, and user interfaces to make the information useful. The document also examines current and future applications of IoT such as smart homes, wearables, smart cities, and connected cars. It concludes that IoT technologies connect the virtual and physical worlds to improve lives, but the infrastructure remains vulnerable to cyberattacks.
The document discusses challenges in turning research into innovation in the Internet of Things (IoT) and why technology transfer is difficult. It outlines a layered perspective on IoT including sensing, embedded systems, communications, protocols, data structures, and platforms. For each layer, it discusses research challenges and provides examples of technologies that aim to address these challenges, such as graphene sensors, quantum technologies, 6LoWPAN, and IoT platforms. It argues that making progress across all layers through continued research is needed to fully realize the potential of IoT.
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.
The document discusses Internet of Things (IoT) and its applications. It defines IoT as a network of physical objects embedded with sensors and software that enables them to connect and exchange data over the internet. By 2020, it is predicted there will be around 50 billion devices connected to the internet as part of the IoT. The document outlines several technologies that enable IoT like RFID, WiFi, ZigBee and sensors in smartphones. It also discusses applications of IoT in areas like traffic monitoring, health, security, transport/logistics and daily life/home automation. Finally, it proposes that the web could provide a universal protocol to combine heterogeneous IoT devices.
This document discusses the Internet of Things (IoT) and provides context around why IoT is receiving attention now. The key points are:
1) IoT is now possible because of improvements in low-power silicon, radio technologies, protocols, and other factors that enable seamless connectivity between devices.
2) The computer industry is seeking new markets as traditional markets like PCs are saturating, and IoT provides a way to utilize existing production capacity.
3) While IoT covers a wide variety of applications, some common underlying technologies could include using small, ubiquitous operating systems like Unix and network protocols like IP. However, each IoT application may have highly divergent requirements.
4)
This presentation gives an idea of how IOT is shaping Telco vendors network architecture and business models. The space of IOT and its opportunities and challenges
This document discusses trends in information and communication technologies (ICT). It defines ICT as technologies providing information access through telecommunications, focusing on communication technologies like the Internet, wireless networks, and cell phones. Examples are provided of how ICT has allowed real-time communication through instant messaging, video conferencing, and social media. Emerging trends discussed include the conversational web using chatbots and virtual assistants, the Internet of Things, and removal of headphone jacks and phone buttons in favor of larger screens on smartphones. The document concludes by outlining future directions in wireless networks like cloud-managed systems and increasing Internet-connected devices.
In this presentation, Vignesh introduces IoT and associated trends. Vignesh is interested in IoT applications in the Home automation space. He has also discussed an innovative idea for home security system which he calls G-Home.
An Introduction to Internet of Things (IoT) Course was conducted at the International conference on Smart Technologies for Smart Nation 2017, REVA University, Bangalore, India.
Similar to MoMoGPW: IoT's turn for the Kool-Aid? (20)
Highly Accurate Alignment of Data from Measurement Trains: the Challenges o...Geoff Ballinger
The accurate alignment we provide via our cloud APIs allows customers to automatically reason about how their infrastructure is changing over time.
It allows the practical deployment of predictive maintenance which has simply not been possible at scale up to this point.
How docker swarm helped us with a deployment of a precise and trusted localisation stack to the Network Rail New Measurement Train presented at the Edinburgh Docker Meetup 6th birthday bash.
Geoff Ballinger discussed how DeltaDNA used HAProxy load balancers to handle traffic to their analytics APIs and customer portal. As traffic grew, they implemented a two-layer HAProxy configuration to better utilize modern multi-core servers. However, the newer experimental multi-threaded mode in HAProxy v1.8 provided a better solution by removing bottlenecks. Ballinger concluded the load balancer acts as the "front door" where systems meet the world, and is worth understanding in detail to optimize services and keep up to date.
Conversation is a powerful and appropriate mode of interaction on mobile, and there are some simple technologies we tend to forget that can give your service access to a very wide audience indeed.
Short talk I gave as part of the December 2016 Mobile Monday Edinburgh.
My presentation from Mobile Scotland 2016 - http://www.mobile-scotland.com/.
Is mobile anything special any more? What is it anyway, the devices, the network, or a context? Challenges and opportunities.
Introductory slides for the June 2014 Mobile Monday Edinburgh event focussed on using mobile app frameworks to allow rapid prototyping and delivery of early product iterations in startups.
For links to the rest of the presentations see https://groups.google.com/forum/#!forum/momoedinburgh
Slides from Mobile Monday Edinburgh's joint event with the Edinburgh Entrepreneurship Club on Monday 20th January 2014.
Joint effort between:
Geoff Ballinger, @geoffballinger
Ronnie Forbes, QikServe, @QikServe
Nadine Pierce, @chefrUK
Sharding and Load Balancing in Scala - Twitter's FinagleGeoff Ballinger
My presentation at Mostly Functional (http://mostlyfunctional.com), part of this year's Turing Festival Fringe (http://turingfestival.com) in Edinburgh. The example source code is up on Github at https://github.com/geoffballinger/simple-sharder
Overview of the mobile platform and development environment landscape in light of the recent announcements during and around MWC 2011.
Presented at the March 2011 Mobile Monday Edinburgh.
Connecting the real world with your mobile - or how to ask "What's that?"Geoff Ballinger
The document discusses how mobile devices can connect the real world to the internet through various technologies like barcodes, visual recognition, location services, and tags. It describes how retailers and brands are using mobile apps to identify products in stores through these methods. The company discussed provides leading barcode reading and visual search capabilities to match images of products with online databases. Their technology allows mobile devices to bridge the physical and digital worlds.
Ignite style presentation given at Barcamp Glasgow 2010 intended to inspire people to build mobile apps and services that real people want to and can use! Note slides intended to advance automatically every 15 seconds.
Wide ranging talk on visually interactive things for mobile given at Over The Air 2009. The related video clips are linked from:
http://blog.geoffballinger.co.uk/2009/09/visual-interactivity-at-over-air-2009.html
BarCampScotland: What Is Visual Interactivity?Geoff Ballinger
This document discusses mobile interactive services and their potential uses. It notes that camera phones are now ubiquitous, with over 90% of handsets having cameras. Examples of interactive mobile applications are given, such as using photos for image recognition, zoning images to interact with events, inserting faces into videos, and visual search. The future potential of mobile interactivity is large, including connecting to live events, 3D products, and using photos as a visual search tool.
16. How IoT: Security
Large numbers of physically accessible
low power devices in the field for 10
years+ without updates!
• ARM trust zones, SEE, apps – Android!
• GSMA security guidelines – “this
year”!
21. Acknowledgements
Cartoons by Terry Anderson
@ScottishCartoon
Used with kind permission of
Interactive Scotland
@IntScotland
https://www.flickr.com/photos/9333756
9@N04/with/16946790579/