MoMoGPW: IoT's turn for the Kool-Aid?
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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
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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 .
INTERNET OF THINGS (TEAM YMCA)
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
Internetofthings 111021131418-phpapp01
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.
Iot devices
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
Internet of things
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.
20180204 wf iot tutorial - small
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.
Smart Cities Day 2 Urban Innovation
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.
Io t
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.
SGNOG 5: Some thoughts on IoT
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)
Iot from telco perspective
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
Week3 lec6 ict
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.
Internet of Things
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.
Introduction to Internet of Things (IoT)
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)
5G IoT Integration - The World is Ready - Are You?
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The Internet Of (very big) Things
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Connecting the real world with your mobile - or how to ask "What's that?"
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MoMoGPW: IoT's turn for the Kool-Aid?
- 1. IoT’s turn for the Kool-Aid? Geoff Ballinger Founder & Organiser, Mobile Monday Edinburgh System Architect, deltaDNA @geoffballinger, #MoMoEdi
- 7. Not according to the GSMA! IoT == ?
- 8. Contentful, Foodini, The Glyph IoT???
- 9. “… the end of civilisation as we know it.” (Paul Coby, Director of IT at John Lewis, London IoT Summit)
- 10. IoT == Skynet???
- 14. How IoT: Connectivity • Ultra-narrowband wide area • 868MHz ISM • EU centric • $115m D round – inc. telcos • Lots of 3G, 4G, WIFI, BLE etc
- 15. How IoT: Connectivity 99.999% ???
- 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”!
- 18. How IoT: Privacy “privacy will almost vanish in future - but security is important” (Sanjiv Ahuja, ex CEO orange, tillman global holdings, 4YFN)
- 19. (http://www.flickr.com/photos/wxmom/2247068741/) Glass half full? • devices in the world … • devices around our person … • countless opportunities!
- 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/