Presentation by Andres Escribano, Telefónica Director of IoT Connectivity Business, at MWC 2018. For more information, please visit: https://iot.telefonica.com
Robustel is an IoT company established in 2010 that designs and manufactures IoT gateways and edge computing devices. It has over 220 employees, 40% of which are in R&D. Some of its products highlighted include the R3000 Lite gateway that was used by Voytech Systems for connecting sensors to the cloud, its App Center that allows for data capping and modbus logging, and its MEG5000 modular edge gateway that provides flexibility. It also produces an IP67 enclosure for outdoor LoRa solutions and an M1200 intelligent modem with cellular and serial connectivity.
This is the IoT path that we are building in Telefónica.
But we are not only talking about IoT.
We are talking about a future we can all create together.
This is the right moment to make it happen.
The Internet of Things… of the People.
Let’s make this future an actual reality.
Let’s do IoT.
Connect, Secure & Automate the Distribution Grid with CISCO SCADA RTU - Eximp...Bosnia Agile
We are proud to present one of the biggest Innovations in the Energy Utilities sector, developed from scratch to address the Smart Grid challenge of connecting hundreds of thousands of Electrical Secondary Sub-Stations, while ensuring SCADA Automation and Security in each sub-station, all in a cost-effective, easy to manage solution. While traditionally, the SCADA RTU, Router and Firewall components have been thought about as 3 different physical devices, Cisco, together with Eximprod Group, have developed a 3-in-1 device, that encompasses all 3 functionalities. We have named it the Cisco Scada Gateway. As a SCADA RTU, the device works with any SCADA Dispatcher and offers superior RTU functionality. As a Router, the device offers the full functionality of Cisco IOS having the Cisco IR809 as a hardware platform, capable of multi-protocol connectivity, including dual-sim 4G. As a Firewall, the device includes a full-features zone-based firewall solution, to segment and govern network access through the SCADA network.
This document provides an overview of Sigfox's low power wide area network (LPWAN) technology for connecting Internet of Things devices. Some key points:
- Sigfox offers a global network to transmit small amounts of data from connected devices using ultra-narrowband radio signals and a very low data rate of up to 140 messages per day.
- Their technology is designed for low power usage, wide area coverage, and low cost to address a variety of IoT use cases and sensor data collection.
- Developers can get started using Sigfox by evaluating development kits and modules or using their application programming interfaces and cloud services to access and analyze sensor data from connected devices.
This document summarizes a presentation about IoT connectivity opportunities and challenges. It introduces Wireless Maingate as a leading provider of managed M2M connectivity services in Europe that was acquired by Sierra Wireless. The presentation outlines Wireless Maingate's services and connectivity platform, and how it can provide end-to-end IoT solutions when combined with Sierra Wireless' products. Finally, it lists some key challenges for IoT connectivity like roaming, embedded SIM management, security, application robustness, and device lifecycle management.
Robustel is an IoT company established in 2010 that designs and manufactures IoT gateways and edge computing devices. It has over 220 employees, 40% of which are in R&D. Some of its products highlighted include the R3000 Lite gateway that was used by Voytech Systems for connecting sensors to the cloud, its App Center that allows for data capping and modbus logging, and its MEG5000 modular edge gateway that provides flexibility. It also produces an IP67 enclosure for outdoor LoRa solutions and an M1200 intelligent modem with cellular and serial connectivity.
This is the IoT path that we are building in Telefónica.
But we are not only talking about IoT.
We are talking about a future we can all create together.
This is the right moment to make it happen.
The Internet of Things… of the People.
Let’s make this future an actual reality.
Let’s do IoT.
Connect, Secure & Automate the Distribution Grid with CISCO SCADA RTU - Eximp...Bosnia Agile
We are proud to present one of the biggest Innovations in the Energy Utilities sector, developed from scratch to address the Smart Grid challenge of connecting hundreds of thousands of Electrical Secondary Sub-Stations, while ensuring SCADA Automation and Security in each sub-station, all in a cost-effective, easy to manage solution. While traditionally, the SCADA RTU, Router and Firewall components have been thought about as 3 different physical devices, Cisco, together with Eximprod Group, have developed a 3-in-1 device, that encompasses all 3 functionalities. We have named it the Cisco Scada Gateway. As a SCADA RTU, the device works with any SCADA Dispatcher and offers superior RTU functionality. As a Router, the device offers the full functionality of Cisco IOS having the Cisco IR809 as a hardware platform, capable of multi-protocol connectivity, including dual-sim 4G. As a Firewall, the device includes a full-features zone-based firewall solution, to segment and govern network access through the SCADA network.
This document provides an overview of Sigfox's low power wide area network (LPWAN) technology for connecting Internet of Things devices. Some key points:
- Sigfox offers a global network to transmit small amounts of data from connected devices using ultra-narrowband radio signals and a very low data rate of up to 140 messages per day.
- Their technology is designed for low power usage, wide area coverage, and low cost to address a variety of IoT use cases and sensor data collection.
- Developers can get started using Sigfox by evaluating development kits and modules or using their application programming interfaces and cloud services to access and analyze sensor data from connected devices.
This document summarizes a presentation about IoT connectivity opportunities and challenges. It introduces Wireless Maingate as a leading provider of managed M2M connectivity services in Europe that was acquired by Sierra Wireless. The presentation outlines Wireless Maingate's services and connectivity platform, and how it can provide end-to-end IoT solutions when combined with Sierra Wireless' products. Finally, it lists some key challenges for IoT connectivity like roaming, embedded SIM management, security, application robustness, and device lifecycle management.
Developing Enterprise-Level IoT Solutions by Fariz SaracevicBosnia Agile
This session will present challenges with building enterprise-level IoT solutions, the use of Continuous Engineering practices and lifecycle management tools to address those challenges, and the resulting business value from the perspective of business and engineering leaders. One of the scenarios that we will look at more details is around IoT-connected car.
Morpho is a global security company that offers products and solutions for digital identity, smart transactions, and other security domains. The document discusses the growth of the Internet of Things (IoT) market and the need for secure connectivity and identity solutions. Morpho's eSIM and Subscription Manager can help securely connect IoT devices by providing remote configurability, local connectivity customization, and application lifecycle management throughout the device's use. This solution allows for flexible global connectivity control to unlock the full potential of the IoT.
Linear Technology is a $1.4 billion company that designs and produces integrated circuits used across various industries. It has developed SmartMesh, a wireless sensor network technology that provides highly reliable connectivity with 10-year battery life for industrial Internet of Things applications. SmartMesh networks can monitor and control sensors securely and are easy to integrate. Linear Technology partners with other companies to offer customizable SmartMesh solutions, including ready-to-use products, design services, cloud/gateway software, and development platforms.
Smart Cities, IoT, SDN, 5G Networks, Cloud Computing… Managing Complexity wit...Bristol Is Open
Service & Content Providers’ Perspective of Smart Cities -How to enrich citizen experience using a pervasive urban SDN connectivity environment, Ramon Casellas
Cisco Service Provider Vision and Strategy: Business Transforming Through Inn...Cisco Service Provider
This Presentation will go over: Business Transforming Through Innovation
What is Cloud?
Technology is Enabling Innovation and Disruption
Transforming Our Business to Guarantee Yours
Building New Markets with SDN, NFV & Cloud
A quick introduction to what is Industry 4.0, how it differs from Industrial IoT and what role will 5G play in I4.0
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
5G Page: https://www.3g4g.co.uk/5G/
Free Training Videos: https://www.3g4g.co.uk/Training/
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2021/08/iot-and-vision-why-its-a-security-minefield-and-how-to-navigate-it-a-presentation-from-arm/
Dr. Lyndon Fawcett, Principal Software Security Architect at Arm, presents the “IoT and Vision: Why It’s a Security Minefield and How to Navigate It" tutorial at the May 2021 Embedded Vision Summit.
Recent advancements in machine learning have enabled market innovators to build insights from IoT sensors in the wild. These insights can be used to solve complex real-world challenges. The lack of security in typical vision-based IoT solutions is especially concerning, as they are typically responsible for managing sensitive data (PID, CCTV) or critical systems (cars, machinery). Security is rarely the first thought for developers of new types of solutions, but making systems secure after the fact is difficult since a holistic approach is required.
Exacerbating this challenge of achieving end-to-end security, the development and deployment of IoT systems often involves multiple handovers of responsibility, which can make achieving end-to-end security difficult. And, due to the complexity and diversity of these systems, security bodies have been unable to prescribe “silver bullet” solutions. Based on first-hand experience, this presentation provides insights to help decision-makers better understand key challenges and potential solutions for providing secure vision-based IoT systems.
This document discusses 5G and its enabling technologies from a European perspective. It begins with an agenda that covers 5G and cloud computing, autonomous driving, and cloud manufacturing. It then discusses 5G, cloud computing, and industry 4.0 as key enablers. The rest of the document covers specific 5G technologies and use cases, an urban test field for autonomous vehicles in Berlin, challenges of cloud manufacturing, and a proposed service discovery architecture.
The document discusses what the Eclipse IoT platform can provide for Industry 4.0. It describes Eclipse as a non-profit foundation with over 320 open source projects and 250 members. The Eclipse IoT platform currently has over 2 million lines of code across 28 projects developed by 250 developers. It then outlines the three main software stacks (tools/SDKs, ontologies, security) used in IoT and how Eclipse projects fit into and support each layer.
The document discusses the Internet of Things (IoT). It defines IoT as physical objects embedded with electronics, software, and sensors that can collect and exchange data when connected to the internet. It describes how IoT works and discusses the hardware (sensors, wearable devices) and software used. It outlines several applications of IoT like home automation, manufacturing, healthcare, and transportation. Finally, it discusses challenges of IoT like security and privacy concerns, and advantages like reduced costs and improved efficiency.
This document discusses the benefits of using IoT platforms when prototyping and developing IoT applications. It outlines key features platforms provide like standards, development kits, tutorials, and assistance getting products to market. The document also examines what components are needed in an IoT platform, including data acquisition, storage, analytics, security, connectivity management and more. It notes industry projections that the number of connected devices will grow significantly in coming years.
BACnet continues to evolve as the preeminent building automation and control protocol. The next step - getting BACnet data out of the building and into the cloud. In this session, Sierra Monitor Corp presents 5 benefits of having BACnet data in the cloud and discuss how this has impacted their customers.
Overcoming Tech Obsolescence in Smart BuildingsMemoori
Memoori talks to Mike Hook from building transformation specialists, LMG and building technology consultant, Ray D’Urso. They discuss how the lifespan of technologies amidst a rapidly changing landscape of user requirements and technological evolution is impacting how we design and construct the buildings of tomorrow.
Sensinode ARM Smart Homes & Cleanpower 2013 Cambridge, UK via CIR www.hvm-uk.comJustin Hayward
This document discusses the Internet of Things (IoT) for smart home applications. It describes how IoT connects intelligent devices through wireless connectivity and sensors. This allows for smart home functions like security/safety, energy management and health/fitness monitoring. Local wireless networks will be important to drive the IoT for functions like smart meters and environmental controls. The growth of smart home systems is projected to be significant in coming years. Open standards, security and interoperability will be important to realize the potential of the IoT. ARM processors and Sensinode software are positioned to enable efficient connectivity of devices to cloud services and applications.
Track 2 session 8 - st dev con 2016 - lora(senet)ST_World
Senet provides low-power wide-area network (LPWAN) connectivity for Internet of Things (IoT) devices using LoRaWAN technology. They operate the largest public LoRaWAN network in North America, covering over 130,000 square miles. Senet's network and platform services allow customers to deploy IoT devices that require long battery life, low cost of ownership and ability to communicate over long ranges. Their end-to-end solutions include network infrastructure, device and data management platforms, and vertical industry applications.
Building the Network - The Things Conference 2018Johan Stokking
The document discusses the development of The Things Network Stack Version 3 (V3). V3 will provide an open-source, integrated software stack for building and operating LoRaWAN networks. It will support LoRaWAN versions 1.1, 1.0.2, and 1.0, and will allow networks to peer within The Things Network ecosystem and with third-party join servers. V3 aims to provide all the necessary components to build public, private, SaaS-based, and development networks in a single, scalable solution.
Leading the LTE IoT evolution to connect the massive Internet of ThingsQualcomm Research
Connecting the IoT—and virtually everything—requires wireless technologies that can scale up to high-performance IoT but also scale down to low complexity IoT application needs. LTE with its global footprint and scale will play a key role in connecting the IoT, and continues to evolve to also address the massive, wide-area, low-power, low-complexity IoT applications. In 3GPP Release 13, two complementary narrowband technologies – eMTC & NB-IoT – were introduced to reduce complexity, lower power consumption, deepen coverage, and increase user density. In 2017, commercial LTE IoT is starting to connect the massive IoT, and it will become an essential part of the 5G Platform, which initially focuses on enhanced mobile broadband. Its rich roadmap will further enhance efficiencies, bring new capabilities, and expand into unlicensed spectrum to meet tomorrow’s massive IoT needs.
For more information, visit us at www.qualcomm.com/lte-iot
DWS16 - Mobile networks forum - Laurent Fournier, QualcommIDATE DigiWorld
The document summarizes key aspects of 5G NR (5th generation New Radio) technology being developed by Qualcomm to enable 5G networks and services. It discusses how 5G NR will provide scalability to address diverse services and devices through flexible spectrum allocation across low, mid, and high bands. It also outlines how 5G NR is being designed to enable massive IoT through technologies like NB-IoT, and mission critical applications through features enabling high reliability, low latency, and high availability. The document shares Qualcomm's efforts in driving 5G NR technology innovations and trials to help realize a future of multi-Gbps data rates, low latency services, and new immersive experiences through 5G.
Developing Enterprise-Level IoT Solutions by Fariz SaracevicBosnia Agile
This session will present challenges with building enterprise-level IoT solutions, the use of Continuous Engineering practices and lifecycle management tools to address those challenges, and the resulting business value from the perspective of business and engineering leaders. One of the scenarios that we will look at more details is around IoT-connected car.
Morpho is a global security company that offers products and solutions for digital identity, smart transactions, and other security domains. The document discusses the growth of the Internet of Things (IoT) market and the need for secure connectivity and identity solutions. Morpho's eSIM and Subscription Manager can help securely connect IoT devices by providing remote configurability, local connectivity customization, and application lifecycle management throughout the device's use. This solution allows for flexible global connectivity control to unlock the full potential of the IoT.
Linear Technology is a $1.4 billion company that designs and produces integrated circuits used across various industries. It has developed SmartMesh, a wireless sensor network technology that provides highly reliable connectivity with 10-year battery life for industrial Internet of Things applications. SmartMesh networks can monitor and control sensors securely and are easy to integrate. Linear Technology partners with other companies to offer customizable SmartMesh solutions, including ready-to-use products, design services, cloud/gateway software, and development platforms.
Smart Cities, IoT, SDN, 5G Networks, Cloud Computing… Managing Complexity wit...Bristol Is Open
Service & Content Providers’ Perspective of Smart Cities -How to enrich citizen experience using a pervasive urban SDN connectivity environment, Ramon Casellas
Cisco Service Provider Vision and Strategy: Business Transforming Through Inn...Cisco Service Provider
This Presentation will go over: Business Transforming Through Innovation
What is Cloud?
Technology is Enabling Innovation and Disruption
Transforming Our Business to Guarantee Yours
Building New Markets with SDN, NFV & Cloud
A quick introduction to what is Industry 4.0, how it differs from Industrial IoT and what role will 5G play in I4.0
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
5G Page: https://www.3g4g.co.uk/5G/
Free Training Videos: https://www.3g4g.co.uk/Training/
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2021/08/iot-and-vision-why-its-a-security-minefield-and-how-to-navigate-it-a-presentation-from-arm/
Dr. Lyndon Fawcett, Principal Software Security Architect at Arm, presents the “IoT and Vision: Why It’s a Security Minefield and How to Navigate It" tutorial at the May 2021 Embedded Vision Summit.
Recent advancements in machine learning have enabled market innovators to build insights from IoT sensors in the wild. These insights can be used to solve complex real-world challenges. The lack of security in typical vision-based IoT solutions is especially concerning, as they are typically responsible for managing sensitive data (PID, CCTV) or critical systems (cars, machinery). Security is rarely the first thought for developers of new types of solutions, but making systems secure after the fact is difficult since a holistic approach is required.
Exacerbating this challenge of achieving end-to-end security, the development and deployment of IoT systems often involves multiple handovers of responsibility, which can make achieving end-to-end security difficult. And, due to the complexity and diversity of these systems, security bodies have been unable to prescribe “silver bullet” solutions. Based on first-hand experience, this presentation provides insights to help decision-makers better understand key challenges and potential solutions for providing secure vision-based IoT systems.
This document discusses 5G and its enabling technologies from a European perspective. It begins with an agenda that covers 5G and cloud computing, autonomous driving, and cloud manufacturing. It then discusses 5G, cloud computing, and industry 4.0 as key enablers. The rest of the document covers specific 5G technologies and use cases, an urban test field for autonomous vehicles in Berlin, challenges of cloud manufacturing, and a proposed service discovery architecture.
The document discusses what the Eclipse IoT platform can provide for Industry 4.0. It describes Eclipse as a non-profit foundation with over 320 open source projects and 250 members. The Eclipse IoT platform currently has over 2 million lines of code across 28 projects developed by 250 developers. It then outlines the three main software stacks (tools/SDKs, ontologies, security) used in IoT and how Eclipse projects fit into and support each layer.
The document discusses the Internet of Things (IoT). It defines IoT as physical objects embedded with electronics, software, and sensors that can collect and exchange data when connected to the internet. It describes how IoT works and discusses the hardware (sensors, wearable devices) and software used. It outlines several applications of IoT like home automation, manufacturing, healthcare, and transportation. Finally, it discusses challenges of IoT like security and privacy concerns, and advantages like reduced costs and improved efficiency.
This document discusses the benefits of using IoT platforms when prototyping and developing IoT applications. It outlines key features platforms provide like standards, development kits, tutorials, and assistance getting products to market. The document also examines what components are needed in an IoT platform, including data acquisition, storage, analytics, security, connectivity management and more. It notes industry projections that the number of connected devices will grow significantly in coming years.
BACnet continues to evolve as the preeminent building automation and control protocol. The next step - getting BACnet data out of the building and into the cloud. In this session, Sierra Monitor Corp presents 5 benefits of having BACnet data in the cloud and discuss how this has impacted their customers.
Overcoming Tech Obsolescence in Smart BuildingsMemoori
Memoori talks to Mike Hook from building transformation specialists, LMG and building technology consultant, Ray D’Urso. They discuss how the lifespan of technologies amidst a rapidly changing landscape of user requirements and technological evolution is impacting how we design and construct the buildings of tomorrow.
Sensinode ARM Smart Homes & Cleanpower 2013 Cambridge, UK via CIR www.hvm-uk.comJustin Hayward
This document discusses the Internet of Things (IoT) for smart home applications. It describes how IoT connects intelligent devices through wireless connectivity and sensors. This allows for smart home functions like security/safety, energy management and health/fitness monitoring. Local wireless networks will be important to drive the IoT for functions like smart meters and environmental controls. The growth of smart home systems is projected to be significant in coming years. Open standards, security and interoperability will be important to realize the potential of the IoT. ARM processors and Sensinode software are positioned to enable efficient connectivity of devices to cloud services and applications.
Track 2 session 8 - st dev con 2016 - lora(senet)ST_World
Senet provides low-power wide-area network (LPWAN) connectivity for Internet of Things (IoT) devices using LoRaWAN technology. They operate the largest public LoRaWAN network in North America, covering over 130,000 square miles. Senet's network and platform services allow customers to deploy IoT devices that require long battery life, low cost of ownership and ability to communicate over long ranges. Their end-to-end solutions include network infrastructure, device and data management platforms, and vertical industry applications.
Building the Network - The Things Conference 2018Johan Stokking
The document discusses the development of The Things Network Stack Version 3 (V3). V3 will provide an open-source, integrated software stack for building and operating LoRaWAN networks. It will support LoRaWAN versions 1.1, 1.0.2, and 1.0, and will allow networks to peer within The Things Network ecosystem and with third-party join servers. V3 aims to provide all the necessary components to build public, private, SaaS-based, and development networks in a single, scalable solution.
Leading the LTE IoT evolution to connect the massive Internet of ThingsQualcomm Research
Connecting the IoT—and virtually everything—requires wireless technologies that can scale up to high-performance IoT but also scale down to low complexity IoT application needs. LTE with its global footprint and scale will play a key role in connecting the IoT, and continues to evolve to also address the massive, wide-area, low-power, low-complexity IoT applications. In 3GPP Release 13, two complementary narrowband technologies – eMTC & NB-IoT – were introduced to reduce complexity, lower power consumption, deepen coverage, and increase user density. In 2017, commercial LTE IoT is starting to connect the massive IoT, and it will become an essential part of the 5G Platform, which initially focuses on enhanced mobile broadband. Its rich roadmap will further enhance efficiencies, bring new capabilities, and expand into unlicensed spectrum to meet tomorrow’s massive IoT needs.
For more information, visit us at www.qualcomm.com/lte-iot
DWS16 - Mobile networks forum - Laurent Fournier, QualcommIDATE DigiWorld
The document summarizes key aspects of 5G NR (5th generation New Radio) technology being developed by Qualcomm to enable 5G networks and services. It discusses how 5G NR will provide scalability to address diverse services and devices through flexible spectrum allocation across low, mid, and high bands. It also outlines how 5G NR is being designed to enable massive IoT through technologies like NB-IoT, and mission critical applications through features enabling high reliability, low latency, and high availability. The document shares Qualcomm's efforts in driving 5G NR technology innovations and trials to help realize a future of multi-Gbps data rates, low latency services, and new immersive experiences through 5G.
Low-Power Wide-Area (LPWA) technology is needed for Internet of Things (IoT) devices due to their low-bandwidth and long battery life requirements. Two leading LPWA cellular technologies are LTE-M and NB-IoT. LTE-M supports higher data rates and real-time communication, while NB-IoT is optimized for low data rates from stationary sensors. Major cellular networks have begun rolling out and expanding LPWA networks globally in 2017 and 2018 to support the growing demand of IoT devices.
Discussing the digital transformation of every part of the network with nfv s...Alberto Boaventura
This document discusses the digital transformation of telecommunication networks through new technologies like NFV/SDN. It covers several topics:
1. The evolution of networks from 4G to 4.5G to 5G and the transition to virtualized platforms.
2. Scenarios driving network transformation like the internet of things and tactile internet that will require networks to support higher data rates, lower latency, and more connections.
3. The challenges of planning networks to support new technologies and services while balancing costs and optimizing resources.
NB-IoT: Pros and Cons of the new LPWA Radio Technology M2M Alliance e.V.
This document provides an overview and comparison of different Low Power Wide Area Network (LPWA) technologies, focusing on Narrowband IoT (NB-IoT). It discusses how NB-IoT is a 3GPP standardized LPWA technology that was developed for IoT applications. It can support a wide range of use cases but is not suitable for time-critical or data-intensive applications. The document also outlines some of the pros and cons of the NB-IoT standard.
- 5G Evolution plans from AT&T will improve network speeds and performance through technologies like massive MIMO and small cells to pave the way for 5G networks and enable new applications.
- AT&T is enhancing its LTE network with carrier aggregation, 256QAM, and other technologies to deliver speeds over 1Gbps today and lay the foundation for 5G standards.
- 5G networks will deliver multi-gigabit speeds, low latency, and connectivity for billions of devices to transform industries like smart cities, connected vehicles, and remote healthcare.
What are the differences and relationships between LTE-M and NB-IoT?
What is LTE-M?
LTE-M, or LTE-Machine-to-Machine, is an LTE evolution-based IoT technology, called Low-Cost MTC in R12 and LTE enhanced MTC (eMTC) in R13, designed to meet the needs of IoT devices based on existing LTE carriers.
The full name of eMTC is enhanced Machine-Type Communication. It is the LTE network between machines using LTE communication for the IoT. It is often abbreviated as M2M.
A response to the growing interest in IoT and LPWAN, LTE-M is unique in that it can be very energy efficient and transmit up to 10 bytes of data per day, but can also transmit up to one megabit per second. LTE-M serves a very wide range of use cases.
LTE-M is an LTE technology for machines and IoT devices that provides 100x lower power consumption than 4G LTE, 5-10x greater coverage than 4G LTE, and 50% lower costs than 4G LTE. There are three complementary LPWA technologies - Cat-M1 and Cat-M2 for LTE-M with data rates up to 375kbps, and Cat-NB1 and Cat-NB2 for NB-IoT with lower data rates of 60kbps. These technologies are already available today on mobile networks globally and provide features such as 10-20 year battery life, 164dB link budgets, and the cost of 2G modules.
This document discusses the future of 5G networks and 5G New Radio (NR) technology. It makes the following key points:
1) 5G NR is being designed as a unified, flexible air interface that can support diverse services, spectrum types and deployments through 2030 and beyond.
2) 5G will expand broadband connectivity and enable new industries through capabilities like ultra-low latency, high reliability, massive capacity and connectivity of everything.
3) 5G NR specifications were contributed to and aligned with Qualcomm's research to deliver scalable OFDM, flexible slot structures, advanced coding and massive MIMO to meet 5G requirements.
5G networks will provide vastly increased capabilities over 4G networks. 5G is expected to deliver peak data rates of up to 10 Gbps, end-to-end latencies of 1 ms or less, connectivity for at least 1 million devices per square kilometer, and network energy efficiency improvements of up to 90%. However, 5G networks are still in development and large-scale commercial deployments are not expected until around 2020. In the meantime, 4G networks are being enhanced through technologies like LTE-Advanced, VoLTE, and WiFi calling to help meet some 5G requirements and enable new applications and use cases.
- 5G NR is designed as a unified, future-proof air interface to efficiently support diverse spectrum types, deployments, services and use cases over the next decade.
- It utilizes an OFDM-based framework with scalable numerology and slot structures to provide flexibility.
- Key 5G NR technologies like massive MIMO and mobile mmWave are aimed at delivering major improvements in areas like connection density, throughput and latency compared to previous standards.
This document discusses the development and commercialization of 5G networks. It provides an overview of the evolution of mobile networks from analog voice to 4G LTE and highlights how 5G will enable new experiences through vastly higher speeds and lower latency. It outlines the 5G New Radio standard being developed by 3GPP and Qualcomm's role in driving 5G technology and standardization. It also presents the results of an industry-first simulation showing significant user experience gains of 5G over 4G LTE.
Over the last year, the industry has made tremendous progress towards making 5G NR a reality with Qualcomm leading the way. We have completed the first release of 3GPP 5G NR specifications, we are set to kick-off 3GPP-compliant 5G NR trials, and we are accelerating global 5G NR enhanced mobile broadband commercial deployments to start in 2019.
But yet there still remains a decent amount of mystery and skepticism around 5G NR. What exactly is 5G NR? What technologies and use cases will see first and why? Are wide-scale 2019 mobile deployments really possible? And what will the evolution of 5G NR bring beyond 2019?
5G will provide significantly higher speeds, greater network capacity, and lower latency compared to previous generations of wireless networks. It will enable billions of connected devices and support applications requiring low latency like autonomous driving. Intel is developing the end-to-end silicon, software and infrastructure needed to power 5G networks, including 5G modems, RF chips, virtualized network solutions, and edge computing platforms. 5G will transform industries by enabling new applications in areas like smart cities, healthcare, manufacturing and more through ultra-reliable connectivity for the Internet of Things.
The ecosystem surrounding the coexistence of NB-IoT and 5G has taken shape and continues to expand. The conditions for the Internet of Everything are beginning to mature. What is the relationship between NB-IoT and 5G?
The relationship between NB-IoT and 5G
Conférence-débat du 10 juin 2015, organisée par le groupe Réseaux et Services de Telecom ParisTech Alumni "Quels réseaux pour l'Internet des Objets ?"
Présentation d'Ambroise Popper (Sequans)
1. The document discusses Nokia's work on 5G technology and trials, including commercialization plans from 2017-2020. Key points include Nokia engaging in over 40 5G trials globally and progress on 3GPP 5G specifications.
2. A wide range of 5G use cases are described across various industries like healthcare, transportation, manufacturing and more. 5G is expected to enable applications requiring low latency and high bandwidth.
3. The timeline for 3GPP 5G releases is provided, outlining the development of standalone 5G specifications and features through 2020. This includes accelerating the first release in 2018 to enable early 5G deployments.
The document discusses the challenges of increasing mobile broadband usage and the need for LTE and small cell solutions. It describes how mobile data usage is doubling every 9 months, driven by new internet-enabled devices and content. LTE and femtocells can help meet this exponential growth in bandwidth demand by providing significantly higher data rates and network offloading capabilities. Femtocells in particular deliver cost-effective indoor coverage and capacity by leveraging consumer broadband connections.
Creating the smart cities of the future - Smart Cities Summit 2018 - AlgiersSmart Algiers
The document outlines a vision for the evolution of the internet from 2020 to 2020. It describes 4 phases:
1) From 1990-2000, the internet was used by innovators and pioneers with speeds up to 33 kbps. Basic services like email and web were introduced.
2) From 2000-2010, the internet became mainstream and available to everyone with speeds up to 1 Mbps. Wireless access and new applications like media streaming and peer-to-peer file sharing emerged.
3) From 2010-2020, internet speeds increased to over 1 Gbps globally. New technologies like IPv6 were introduced to address limits of IPv4. The "Internet of Things" began connecting devices.
4
Broad Sky explores 2 of the latest technologies in Wireless providing the fastest LTE speeds on the market. Carrier Aggregation, QAM, MIMO and Bonding technologies make the most out of the LTE carrier networks on the path to 5G. Found out more about how the Need for Speed has driven these technologies and what they can do for your customers.
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive function. Exercise causes chemical changes in the brain that may help protect against developing mental illness and improve symptoms for those who already suffer from conditions like anxiety and depression.
Cómo Internet de las Cosas cambiará nuestros negociosTelefónica IoT
Internet de las Cosas representa la próxima gran revolución digital que conectará miles de millones de dispositivos y objetos, generando grandes cantidades de datos que pueden analizarse para mejorar la eficiencia de procesos y operaciones de las empresas. Telefónica está bien posicionada para ser un líder en este espacio gracias a su presencia global, capacidades únicas en conectividad gestionada y soluciones IoT ya implementadas en sectores como el automóvil, máquinas de café y energía.
Smart telematics, innovation and new business modelsTelefónica IoT
The document discusses the evolution of smart telematics and new business models in the connected car industry. It notes that telematics started as mainly professional services but will expand to both professional and consumer markets by 2020. The connected car market is expected to grow significantly, with over 250 million connected cars and $317 billion in revenue by 2020, as connectivity and services become integrated into more vehicle platforms and models.
5G networks will enable new capabilities for connected vehicles like collision avoidance and traffic signal priority. 5G offers lower latency, higher bandwidth, and greater connectivity compared to previous network standards. Telefonica is working with partners to lead the implementation of 5G and help drive its use for connected vehicles and other applications that will benefit from 5G's features.
IoT has the potential to transform our lives through connected devices that can monitor and automate things. However, security and privacy concerns must be addressed to ensure user trust and adoption of IoT technologies. With care and responsibility, IoT can be developed and applied safely and beneficially.
1) Open and horizontal platforms that rely on open source software like FIWARE and its OSS community allow cities to choose from a variety of IoT providers and integrators without vendor lock-in.
2) A rich ecosystem has been developed including cities, entrepreneurs, accelerators, and over 100 member cities in the Open and Agile Smart Cities Alliance, as well as over 50 certified IoT devices through the FIWARE IoT Ready program.
3) API and data model harmonization through standards like FIWARE NGSIv2 and a catalogue of harmonized data models covering different smart city verticals provide a single, generic RESTful API for accessing smart city data.
This document discusses Telefonica's support for Low Power Wide Area (LPWA) networks. It believes LPWA networks will enable new Internet of Things use cases in areas like metering, asset tracking, agriculture, smart cities, and connected industry. Telefonica is upgrading its networks to include new LPWA capabilities. It is also collaborating with industry partners and customers to build out the LPWA ecosystem and validate solutions. Some of its accomplishments so far include the first LTE Cat M1 data call in Europe and commercial rollouts and customer experiences with NB-IoT in Latin America. Telefonica aims to make continued progress on interoperability, availability of devices and modules, and developing new services beyond
Presentation of José Manuel Caramés, Global Head of M2M Transport at Telefónica about the M2M benefits for Fleet Management solutions at TM Forum Live! in Nice ..
The document discusses how IoT is driving innovation across multiple industries by connecting devices, collecting data, and creating new business models and efficiencies. It provides examples of how Telefonica is leveraging IoT through solutions in areas like connected cars, smart cities, energy grid management, and other verticals. Telefonica's strategy focuses on providing end-to-end IoT solutions and services including connectivity, data analytics, and encouraging innovation through their open innovation programs.
FIWARE: advancing Smart Cities and the Digital Economy by Marieta del RiveroTelefónica IoT
FIWARE is an open platform that aims to advance smart cities and the digital economy by establishing common standards. It is a public-private partnership of 24 partners from 9 countries that has invested over 1.1 million hours and 122 million euros in developing the platform. FIWARE creates an open ecosystem that benefits various stakeholders like service providers, platform providers, application providers, and city governments. It also works to create incentives for entrepreneurs and help startups through programs like the FIWARE Acceleration Program.
Delivering the m2m experience, leading the IoT pathwayTelefónica IoT
1) Telefonica aims to lead the IoT opportunity by putting customers at the center and delivering connectivity and end-to-end solutions both in their core business and new areas.
2) They take a two-fold strategy of innovation and revenue growth, having seen consistent growth over 40% from 2014 to 2017.
3) The presentation discusses several IoT solutions Telefonica provides including fleet management, smart cities, and energy efficiency, as well as their plans to continue innovating in areas like low power wide area networks and cellular connectivity for machines.
Presentación Smart Cities en Sabadell Smart Congress, 26 de Febrero 2015Telefónica IoT
El documento habla sobre la revolución digital y cómo está cambiando la forma en que los ciudadanos compran y se relacionan, requiriendo ciudades inteligentes que pongan la tecnología a su servicio para mejorar su calidad de vida de manera sostenible. Telefónica conoce las necesidades de los ciudadanos y trabaja con socios para desarrollar plataformas inteligentes que mejoren la eficiencia, calidad de vida y gobierno a través de soluciones como la gestión de energía y servicios públicos en Sabadell.
Smart Homes & End User Engagement track: Emerging Trends and Opportunities Telefónica IoT
The document discusses emerging trends related to smart homes and end user engagement. It covers several topics:
1. Wireless connectivity technologies that are available for smart home applications including cellular, RF, WiFi and various hybrid models.
2. How machine-to-machine (M2M) connectivity and end user engagement can create new opportunities, particularly in the utility sector.
3. Examples of how utilities in the UK are promoting smart metering programs and engaging users to change energy consumption behaviors and generate savings.
Smart Metering Data Management: Challenges and OpportunitiesTelefónica IoT
The document discusses the challenges and opportunities of smart metering data management. It outlines the evolution from manual to smart metering data collection. The main challenges are communication networks, data hosting, analytics, and management. A comprehensive data management model is needed to allow data exchange between stakeholders while ensuring security and hosting large volumes. Opportunities exist to leverage smart metering big data through utility-led models and value-added services around areas like electric vehicles, smart homes, and health.
Focando no SmartGrid: Visão e Atuação da Telefonica Telefónica IoT
O documento descreve a atuação da Telefônica | Vivo no mercado de Smart Grids. A empresa evoluiu para se posicionar como provedora de conectividade para a Internet das Coisas, liderando o mercado brasileiro de M2M. A Telefônica teve sucesso no maior projeto mundial de medição inteligente no Reino Unido, demonstrando a viabilidade do uso de redes celulares para Smart Grids.
European Industry Analyst Day. 30 September 2014, LondonTelefónica IoT
This document summarizes a presentation on Telefonica's machine-to-machine (m2m) solutions. It discusses Telefonica's end-to-end m2m solutions across 15 countries, including providing connectivity for over 23 million households and 42 million smart meters in the UK. The presentation also highlights Telefonica's work in fleet management, electric vehicles, smart cities, and an open innovation platform to encourage new m2m applications.
O documento discute o envolvimento da Telefonica|Vivo no mercado de M2M (máquina a máquina) e SmartGrid no Brasil. Apresenta os resultados da empresa no setor de M2M no Brasil e casos de sucesso em outros países. Também descreve os serviços digitais, iniciativas e parcerias da Telefonica para apoiar o setor de utilities.
How to Get CNIC Information System with Paksim Ga.pptxdanishmna97
Pakdata Cf is a groundbreaking system designed to streamline and facilitate access to CNIC information. This innovative platform leverages advanced technology to provide users with efficient and secure access to their CNIC details.
Threats to mobile devices are more prevalent and increasing in scope and complexity. Users of mobile devices desire to take full advantage of the features
available on those devices, but many of the features provide convenience and capability but sacrifice security. This best practices guide outlines steps the users can take to better protect personal devices and information.
UiPath Test Automation using UiPath Test Suite series, part 5DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 5. In this session, we will cover CI/CD with devops.
Topics covered:
CI/CD with in UiPath
End-to-end overview of CI/CD pipeline with Azure devops
Speaker:
Lyndsey Byblow, Test Suite Sales Engineer @ UiPath, Inc.
Introducing Milvus Lite: Easy-to-Install, Easy-to-Use vector database for you...Zilliz
Join us to introduce Milvus Lite, a vector database that can run on notebooks and laptops, share the same API with Milvus, and integrate with every popular GenAI framework. This webinar is perfect for developers seeking easy-to-use, well-integrated vector databases for their GenAI apps.
Observability Concepts EVERY Developer Should Know -- DeveloperWeek Europe.pdfPaige Cruz
Monitoring and observability aren’t traditionally found in software curriculums and many of us cobble this knowledge together from whatever vendor or ecosystem we were first introduced to and whatever is a part of your current company’s observability stack.
While the dev and ops silo continues to crumble….many organizations still relegate monitoring & observability as the purview of ops, infra and SRE teams. This is a mistake - achieving a highly observable system requires collaboration up and down the stack.
I, a former op, would like to extend an invitation to all application developers to join the observability party will share these foundational concepts to build on:
Why You Should Replace Windows 11 with Nitrux Linux 3.5.0 for enhanced perfor...SOFTTECHHUB
The choice of an operating system plays a pivotal role in shaping our computing experience. For decades, Microsoft's Windows has dominated the market, offering a familiar and widely adopted platform for personal and professional use. However, as technological advancements continue to push the boundaries of innovation, alternative operating systems have emerged, challenging the status quo and offering users a fresh perspective on computing.
One such alternative that has garnered significant attention and acclaim is Nitrux Linux 3.5.0, a sleek, powerful, and user-friendly Linux distribution that promises to redefine the way we interact with our devices. With its focus on performance, security, and customization, Nitrux Linux presents a compelling case for those seeking to break free from the constraints of proprietary software and embrace the freedom and flexibility of open-source computing.
“An Outlook of the Ongoing and Future Relationship between Blockchain Technologies and Process-aware Information Systems.” Invited talk at the joint workshop on Blockchain for Information Systems (BC4IS) and Blockchain for Trusted Data Sharing (B4TDS), co-located with with the 36th International Conference on Advanced Information Systems Engineering (CAiSE), 3 June 2024, Limassol, Cyprus.
Maruthi Prithivirajan, Head of ASEAN & IN Solution Architecture, Neo4j
Get an inside look at the latest Neo4j innovations that enable relationship-driven intelligence at scale. Learn more about the newest cloud integrations and product enhancements that make Neo4j an essential choice for developers building apps with interconnected data and generative AI.
TrustArc Webinar - 2024 Global Privacy SurveyTrustArc
How does your privacy program stack up against your peers? What challenges are privacy teams tackling and prioritizing in 2024?
In the fifth annual Global Privacy Benchmarks Survey, we asked over 1,800 global privacy professionals and business executives to share their perspectives on the current state of privacy inside and outside of their organizations. This year’s report focused on emerging areas of importance for privacy and compliance professionals, including considerations and implications of Artificial Intelligence (AI) technologies, building brand trust, and different approaches for achieving higher privacy competence scores.
See how organizational priorities and strategic approaches to data security and privacy are evolving around the globe.
This webinar will review:
- The top 10 privacy insights from the fifth annual Global Privacy Benchmarks Survey
- The top challenges for privacy leaders, practitioners, and organizations in 2024
- Key themes to consider in developing and maintaining your privacy program
A tale of scale & speed: How the US Navy is enabling software delivery from l...sonjaschweigert1
Rapid and secure feature delivery is a goal across every application team and every branch of the DoD. The Navy’s DevSecOps platform, Party Barge, has achieved:
- Reduction in onboarding time from 5 weeks to 1 day
- Improved developer experience and productivity through actionable findings and reduction of false positives
- Maintenance of superior security standards and inherent policy enforcement with Authorization to Operate (ATO)
Development teams can ship efficiently and ensure applications are cyber ready for Navy Authorizing Officials (AOs). In this webinar, Sigma Defense and Anchore will give attendees a look behind the scenes and demo secure pipeline automation and security artifacts that speed up application ATO and time to production.
We will cover:
- How to remove silos in DevSecOps
- How to build efficient development pipeline roles and component templates
- How to deliver security artifacts that matter for ATO’s (SBOMs, vulnerability reports, and policy evidence)
- How to streamline operations with automated policy checks on container images
In his public lecture, Christian Timmerer provides insights into the fascinating history of video streaming, starting from its humble beginnings before YouTube to the groundbreaking technologies that now dominate platforms like Netflix and ORF ON. Timmerer also presents provocative contributions of his own that have significantly influenced the industry. He concludes by looking at future challenges and invites the audience to join in a discussion.
GraphSummit Singapore | The Future of Agility: Supercharging Digital Transfor...Neo4j
Leonard Jayamohan, Partner & Generative AI Lead, Deloitte
This keynote will reveal how Deloitte leverages Neo4j’s graph power for groundbreaking digital twin solutions, achieving a staggering 100x performance boost. Discover the essential role knowledge graphs play in successful generative AI implementations. Plus, get an exclusive look at an innovative Neo4j + Generative AI solution Deloitte is developing in-house.
6. •Security in the desing/Privacy
•Delivery on time
•Globalisation Solutions
•Full Integration components in a IoT
Solution
•Standarisation & Certification
•Technical Availability vs Commercial
Availability
•Price….Price…Price
BUSINESS DRIVEN EVOLUTION. TOP ISSUES
7. HQ
Warehouse
Cargo/Airports
Last-Mile Delivery
Inboud Supply Chain
Pallets & Packages
Outbound Supply Chain
Tracking
Monitor
sensor
BIG DATA & AI. INDUSTRY 4.0 DATA DRIVEN BUSINESS
Tracking
Dashboard
Trace
Full
Automatisation
Optimal
Routing
Airplanes Flight
Optimization
Customer
Satisfaction
Real-time
Monitoring
Routing
DATA DRIVEN
DECISION BUSINESS
Change Production
Orders
Detect Patterns
Routing
Prediction
8. •Thingnovators Ecosystem
•Beyond the usual tech lab.
•Reknown technology
manufacturers.
•Engineering support for
integration needs.
•TEF inner business channel
for Thingnovators.
•Solutions certification
9. 9
New
Technology
Lab
New Partners
Center
New Ecosystem
Center
Chipset Manufacturer
Module Manufacturer
Network Partners
IoT Platform Partners
End Customers
Device & Communication Module Manufacturer
Application Developers
Integrators
Launch New Products & Solutions
Creation of New Business
ECOSYSTEM ENGINE
10. • Solutions based in the
customers needs
• New capabilities like
Edge computing /
Blockchain
• Simplify the way to
access to our
assests.
• Digital Services
Definitions
IoT FRAMEWORK. A PLATAFORM COMPANY VIEW