Supelec m2 m - iot - course 1 - update 2015 - part 3 - conclusion - v(0.1)Thierry Lestable
Conclusion - Supélec 2015 - course introduction to Internet of Things (IoT) and M2M. Multimedia part - Connected TV/Smart TV, 4K, cloud offers ramp-up, Net Neutrality
LoRa Alliance presentation Marketing Day 2016; Impacts & benefits from internet of things onto Digital Marketing stratégies & policies, and iterative product design
Isep m2 m - iot - course 1 - update 2013 - 09122013 - part 3 - v(0.7)Thierry Lestable
This document provides a 3-part summary of Internet of Things (IoT) topics, including market trends, technology roadmaps and standards, and cloud computing applications. It discusses convergence of WiFi and cellular networks, smart grid and smart vehicle use cases, and cloud-based services like gaming, TV, and storage. Standardization efforts by groups like ETSI, 3GPP, and the GSC are reviewed. Open issues regarding architecture, governance, interoperability, and neutrality are also covered.
Supelec m2 m - iot - course 1 - update 2015 - part 1 - warming - v(0.1)Thierry Lestable
Internet of things (IoT) & Machine-to-Machine (M2M) course from Supélec - Warming phase / Q1'2015 session. Introduction of New alliances : HomeKit, Nest, Allseen, OIC
This document provides an overview of machine-to-machine (M2M) communications and the Internet of Things (IoT) market, technology roadmap, and standards. It discusses the transition from M2M to IoT, outlines the agenda for part 1 which covers the market, IoT technologies and applications, architecture, wireless networks, smart home technologies, and wide area networks. It also provides brief introductions and disclaimers about copyrighted material.
Orange IoT and LPWA Connectivity White Paper-EN-2018Orange Dev
(1) LoRaWAN and LTE-M are low-power wide-area (LPWA) network technologies that are well-suited for connecting IoT devices that require long range connectivity while minimizing power consumption. (2) LoRaWAN uses license-free spectrum for connectivity solutions that are low-power, low-cost, and provide wide-area coverage for non-critical applications. (3) LTE-M uses licensed cellular spectrum and provides more capabilities like higher speeds, support for mobility and voice, and global roaming, making it suitable for applications requiring real-time connectivity.
Isep m2 m - iot - course 1 - update 2013 - 09122013 - part 2 - v(0.5)Thierry Lestable
The document provides an overview of Internet of Things (IoT) technologies and standards, including a discussion of market trends, architecture, networking technologies, and applications. Key points discussed include the growth of mobile traffic driven by IoT, the role of low-power wireless networks, M2M communication standards, and new opportunities in areas such as smart homes, smart cities, and vehicle telematics. The presentation concludes by examining challenges around spectrum harmonization and the need for further IoT standardization.
Supelec m2 m - iot - course 1 - update 2015 - part 1 - warming - v(0.4)Thierry Lestable
January 2015 - Update M2M/IoT introduction, course in Supélec (Part1/3)...Brief review connectivity systems & smart Home + IoT major industry alliances...
LTE-M & NB-IoT Roadmap at LPWAN Conference 2018Nicolas Damour
Sierra Wireless provides a comprehensive global IoT offering including IoT devices, an IoT platform, and IoT connectivity. Cellular LPWA technologies like LTE-M and NB-IoT are available now to provide low-cost, low-power, and wide-area coverage for IoT deployments. Sierra Wireless has been a leader in developing LTE-M and NB-IoT technology, releasing its first LTE-M modules in 2016 and multi-mode modules supporting LTE-M, NB-IoT, and 2G in 2017-2018. These technologies are now seeing global commercial deployments and will continue to evolve in future 5G networks to support massive IoT.
Whitepaper - LoraWAN and Cellular IoT (NB-IoT, LTE-M): How do they complement...Actility
Ericsson’s Mobility Report [3] forecasts that by 2022 more than seventeen billion IoT devices will be connected by wireless communication technologies. The Internet of Things (IoT) market targeting low power, low cost and low-data rate devices capable of communicating over a wide area network -the LPWAN market- is growing very rapidly.
In recent years, there have been significant technological developments in wireless IoT connectivity, with multiple technologies sometimes competing and often responding to different IoT use case requirements. Hence, choosing the right mix of connectivity solutions requires careful consideration. In this paper, we examine both cellular IoT (NB-IoT, Cat-M1) and LoRaWAN, and demonstrate that the two technologies are complementary.
We show how operators extend existing M2M use cases and swap 2G using cellular IoT, and in addition tap into the new unlicensed IoT market space using LoRaWAN. Interestingly, LoRaWAN is a natural over-the-top play for cellular IoT operators, as cellular IoT is an ideal backhaul technology for unlicensed LPWAN concentrators.
TADSummit Closing Keynote: BYOSpectrum – Why private cellular is a game-changerAlan Quayle
Dean Bubley, Disruptive Analysis.
The telecoms industry loves to claim that 5G will disrupt and transform industries. What it hasn’t realised is that the first industry that will get disrupted is telecom itself. New local or shared spectrum bands (such as CBRS in the US), programmable cloud-based cores, eSIM and various other enablers are making it much easier for enterprises, IT companies, cities and Internet/cloud players to build their own private 4G – and soon 5G – networks.
That’s not to say it’s as simple as installing Wi-Fi, but for various organisations from airports to oil companies to hospitals, it’s becoming a more realistic proposition. There are also various hybrids, where telcos can sell “slices” or local/enterprise MVNO deals, or allow companies to just run a separate private core network. Add in a new set of wholesale models (called Neutral Host), and the future wireless operator landscape looks very different from today.
We’re seeing the democratisation of “programmable cellular networks”.
To meet the new connectivity requirements of the emerging IoT segment, 3GPP has taken evolutionary steps on both the network side and the device side. A single technology or solution cannot be ideal to all the different potential IoT applications, market situations and spectrum availability. As a result, the 3GPP standardizing several technologies, including Extended Coverage GSM (EC-GSM), LTE-M and NB-IoT.
LTE-M, NB-IoT and EC-GSM are all superior solutions to meet IoT requirements as a family of solutions, and can complement each other based on technology availability, use case requirements and deployment scenarios. The evolution for these technologies is shown in figure #5. Technical studies and normative work for the support of Machine Type Communication (MTC) as part of 3GPP LTE specifications for RAN began in 3GPP Release 12 and are continuing with the goals of developing features optimized for devices with MTC traffic.
This document discusses trends related to small cells in LTE and LTE-Advanced networks. It notes that mobile data traffic is growing dramatically and is expected to increase 33 times from 2010 to 2020, risking a capacity crunch. This growth is driven by factors like more connected devices, applications, and traffic diversity across locations, subscribers, times of day, and more. To help address this challenge, the document explores technologies like femtocells, machine-to-machine communication, and next-generation small cells which can provide additional network capacity in a flexible manner.
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.
Vodafone's NB-IoT Rollout - presentation by John Tuersley, Vodafone Group Technology at the IoT Thames Valley Meetup on 8th May, 2019.
https://www.meetup.com/Internet-of-Things-Thames-Valley/
Sensing as-a-Service - The New Internet of Things (IOT) Business ModelDr. Mazlan Abbas
Here's a chance to create new business models for Internet of Things. There are tons of benefits to gain from IOT and sensors. Its a matter of time when we can harness the creativity of the IOT Application Developers. Create a healthy eco-system so that everyone benefits.
Windows 10 IoT has the potential to empower people with disabilities by proposing a 3 part solution: 1) New sensors to remotely monitor children for conditions like snoring, 2) An integrated intelligence platform to track abilities using data from inputs, and 3) Connecting professionals to clients through Windows devices and apps. The proposal aims to use technologies like RFID, speech recognition, and data analysis to help identify disabilities earlier and help professionals better understand client needs. Microsoft should pursue opportunities in healthcare by providing an end-to-end IoT solution for industries and developing products that monitor conditions like snoring in children.
Avinash Misra from IE Business School was selected as one of twelve winning teams worldwide in the Siemens Global University Challenge 2016. The challenge involved students from eight universities developing ideas around enabling digital twins, which are digital representations of physical machines and processes that allow for improved efficiency and quality. Misra submitted an innovative idea on the topic, further developed it with Siemens experts, and uploaded a visualization. He also received training in Tecnomatix Plant Simulation Software.
This document discusses the transition to a digital economy and the opportunities and challenges that come with it. Key points include:
- The rise of mobile devices, e-commerce, and digital customer experiences are shifting economic focus from products to personalized journeys.
- In the digital economy, cooperation and sharing value will become more important than competition and consumerism. Individual companies will matter less than business ecosystems.
- The Internet of Things will connect physical goods and services, disrupting industries and requiring products and services to be networked and marketed as integrated bundles.
- Infrastructure like mobile networks, data management, social media, cloud computing, and the IoT will be crucial enabling technologies, especially for improving city services through interconnected
While the media, analysts and many enterprises talk about IoT as a future endeavor, this presentation focuses on IoT as a strategic imperative that drives business outcomes that result in saving money, making money, and growing closer customers
O Desafios Porto é uma competição que pretende encontrar as soluções tecnológicas que dão a resposta mais inovadora aos desafios identificados pela cidade.
The document discusses the business value drivers for Internet of Things (IoT) solutions. It notes that the number of connected devices is expected to grow dramatically in the next decade, with estimates ranging from 50 billion to 1 trillion devices by 2025. This growth of IoT has the potential to create $2.7-$6.2 trillion in annual economic impact by 2025. The document outlines examples of how various industries like retail, utilities, insurance and oil/gas are pursuing IoT initiatives to lower costs, improve customer service and gain operational efficiencies.
What are the megatrends that affect our future? How will our lives change as a result of the need for ecological sustainability, intensifying globalisation and technological development? Find out more at www.sitra.fi/megatrends
Geolocation with LPWAN LoRa IoT Networks, a "Must have" Killer application. Benefits from Radio degree of Freedom brought by LoRaWAN Network, adaptive data rates, Femtocells densification - illustration of performance trends.
Authors: Thierry Lestable (Ph.D), Massinissa Lalam (Ph.D) and Maxime Grau
This document discusses centralized and decentralized capabilities that could be provided by an Internet of Things (IOT) Platform as a Service (PaaS). Centralized capabilities discussed include device management, protocol hub, device discovery, event aggregation, telemetry data storage, event simulation, event notifications, and real-time data visualization. Decentralized capabilities discussed include peer-to-peer secure messaging, contract enforcement/messaging trust, and file sharing. The document also discusses how some of these capabilities could be implemented and compares Cloudfoundry and blockchain as foundational models for centralized and decentralized IOT PaaS respectively.
AWS re:Invent 2016: IoT Security: The New Frontiers (IOT302)Amazon Web Services
Only year ago we launched AWS IoT, and at re:Invent we showed how AWS IoT makes it easy to secure millions of connected devices. However, we have learned from our customers that a number of unique security challenges for the Internet of Things (IoT) exist.
The document discusses various Internet of Things (IoT) technology standards including the GSMA eUICC standard for soft SIMs, the OMA LwM2M protocol, the One M2M IoT service layer specification aligned with 3GPP Release 13, and 3GPP Release 13 standards for LTE-M, NB-IoT, and EC-GSM. It also covers the ETSI MEC standard and its applications for IoT as well as a comparison of IoT and industrial IoT. Implementation of 3GPP Release 13 standards in the US during 2017 involving AT&T, Verizon Wireless, Sequans Communications, and STMicroelectronics is also summarized.
This document provides an overview of an Internet of Things (IoT) company called Jasper and its business model presentation. The presentation covers Jasper's company introduction, value proposition, customer selection, scope of activities, value capture, competition, strategic control, and potential improvements. Jasper provides an IoT platform and cloud-based services to connect, manage, and monitor devices. It works with various industries including automotive, enterprise mobility, and connected devices. Jasper captures value through subscription and usage-based fees from its platform.
Sensing-as-a-Service - Prepare for the Next Business Model for Internet of Th...Dr. Mazlan Abbas
1) The document discusses the emerging business model of "Sensing-as-a-Service" and how telecommunications companies can evolve to become end-to-end IoT service providers.
2) It explains how the IoT market is rapidly growing with predictions of over 200 billion connected devices by 2020, creating a huge business opportunity.
3) The document proposes a sensing-as-a-service model where IoT sensor data is published to the cloud and then monetized by selling access and insights to various customers and industries like smart cities.
Tips on writing a business plan from an investor's perspective.
Please visit:
https://flevy.com/browse/business-document/developing-and-presenting-your-business-plan-148
For an improved version of these slides
Sensing-as-a-Service - New Business Models for Internet of Things (IOT)Dr. Mazlan Abbas
This document discusses sensing-as-a-service as a new business model for telecommunications companies in the Internet of Things. It argues that telcos have struggled to embrace IoT due to legacy connectivity-focused businesses and lack of domain expertise. However, becoming an end-to-end IoT service provider through a sensing-as-a-service model could allow telcos to harness sensor data from various sources and create new applications. This presents opportunities to generate new revenue streams and find a niche in the growing IoT ecosystem.
The document discusses the evolution of the Internet of Things (IoT), which represents the next stage in the development of the Internet. As devices become embedded with sensors and connectivity, it is estimated that there will be over 50 billion connected devices by 2020, far surpassing the world's human population. This growth will be driven by the integration of sensors into everyday objects and the standardization of IP protocols. The IoT will generate unprecedented amounts of data traffic and transform how people and machines interact online.
What Exactly Is The "Internet of Things"?Postscapes
Over the last several years, stories of the technologies making up an Internet of Things have started to slip into public consciousness. As this is occurring, we believe the whole story of Smart Systems and the Internet of Things is not being told. Many of the dispatches coming in from the “front lines” of technology innovation are but fragments of a much larger narrative.
Postscapes collaborated with Harbor Research on an infographic to tell a more complete story about the Internet of Things.
From our perspective, this story is not just about people communicating with people or machines communicating with machines. Smart, connected systems are a technological and economic phenomenon of unprecedented scale, encompassing potentially billions if not trillions of nodes -- an Internet of infinite interactions and values...
This document provides an overview of 5G technologies and deployment plans in France. It discusses 5G use cases like VR, industrial robots, smart cities etc. It then covers key 5G technologies such as new antennas and network architecture. The document outlines France's 5G spectrum auction and 25 test projects in areas like connected mobility, IoT, telemedicine etc. It also discusses 5G deployment timelines in France and Europe with commercial launches expected in 2020.
Presentación de Ulrike Eberhard, Socia Gerente de Detecon, la consultora de gestión y tecnología de Deutsche Telekom Group durante el Taller de Regulación CRC 2018.
5G will connect billions of devices, things and people and bring an Ocean of new opportunities to cope with continuous traffic growth, low latency service expectations, energy efficiency, urban density and many other requirements demanding more and more innovation in the CMOS, MEMS and Protonics space but also many other areas.
LPWA - Low power wide area, short for low power wide area technology, using lower power consumption to achieve long-distance wireless signal transmission.
Compared with the familiar low-power Bluetooth (BLE), Zigbee and Wifi technologies, LPWA has a much longer transmission distance, generally at the kilometre level, and its link budget (link budget) can reach 160dBm, while BLE and Zigbee are generally below 100dBm.
Compared with traditional cellular network technologies (2G, 3G), LPWA has lower power consumption, and battery-powered devices can last for several years. Based on these two distinctive features, LPWA can truly enable the Internet of Things (IoT) revolution.
LPWAN - Low power wide area network, i.e. a wireless connection network built with LPWA technology, LPWAN can be connected in various forms.
A Review of Low Power Wide Area Technology in Licensed and Unlicensed Spectru...journalBEEI
There are many platforms in licensed and license free spectrum that support LPWA (low power wide area) technology in the current markets. However, lack of standardization of the different platforms can be a challenge for an interoperable IoT environment. Therefore understanding the features of each technology platform is essential to be able to differentiate how the technology can be matched to a specific IoT application profile. This paper provides an analysis of LPWA underlying technology in licensed and unlicensed spectrum by means of literature review and comparative assessment of Sigfox, LoRa, NB-IoT and LTE-M. We review their technical aspect and discussed the pros and cons in terms of their technical and other deployment features. General IoT application requirements is also presented and linked to the deployment factors to give an insight of how different applications profiles is associated to the right technology platform, thus provide a simple guideline on how to match a specific application profile with the best fit connectivity features.
The physical layer of 5G will differ significantly from 4G LTE in several ways to improve spectral efficiency and data rates. It will utilize a much larger number of active antennas and antenna arrays to support beamforming and millimeter wave signals. New modulation and coding schemes, components for power amplification and noise reduction, and channel models need to be developed. The 5G physical layer protocol stack separates the layer into PHY, MAC, RLC, PDCP and SDAP layers to handle functions like error correction, scheduling, security, and QoS flow mapping between layers.
Brian Vogelsang (Qualcomm): 5G and the Augmented EnterpriseAugmentedWorldExpo
A talk from the Enterprise Track at AWE USA 2019 - the World's #1 XR Conference & Expo in Santa Clara, California May 29-31, 2019.
Brian Vogelsang (Qualcomm): 5G and the Augmented Enterprise
5G promises to bring new levels of performance and efficiency that will power new user experiences and redefine a broad range of industries with connected services from retail to education, transportation to entertainment, and everything in between. 5G will also be a catalyst for Augmented Reality in the Enterprise, delivering multi-Gbps peak rates, ultra-low latency, massive capacity, and a more uniform user experience to businesses deploying AR technology. With 2019 as the beginning of a new era in communications, come learn how 5G will intersect the Enterprise Augmented Reality glasses of today, and become a fabric for enabling the more immersive experiences of tomorrow.
https://awexr.com
This document provides an overview of wireless cellular technologies and career opportunities in the field. It discusses the evolution of cellular standards from 2G to 4G, including the technologies, architectures, and frequency bands used. It also covers recent trends like SDN, IoT, NFV, and big data. Finally, the document outlines various career paths in telecommunications networks, equipment manufacturing, software, and other industry domains.
This document provides an overview of wireless cellular technologies and career opportunities in the field. It discusses the evolution of cellular standards from 2G to 4G, including the technologies, architectures, and frequency bands used. It also covers recent trends like SDN, IoT, NFV, and big data. Finally, the document outlines various career paths in telecommunications networks, equipment manufacturing, software, and other industry domains.
What is wireless 5G LAN?
5G LAN is a LAN built in a 5G network, through which a LAN with mobility can be assembled to meet production and office needs. 5G LAN has the benefit of cross-territory mobility, so even if two people are thousands of miles apart, they can still set up a LAN to achieve Layer 2 and 3 interoperability.
Simply put, 5G LAN uses 5G technology to group and build groups of terminals to form a LAN network. When using 5G cell phones, have you ever noticed that even if you and your friends are close together (even face to face), your phone cannot search each other? You can communicate with each other because the data flow to the carrier or Internet service provider's server around the circle.
This report describes the 5G requirements, use cases and technologies which are modelling the transformation of the core network and a roadmap how the 3GPP Evolve Packet Core can be modified to become the core for the 5G networks.
Narrowband Internet of Things (NB-IoT) is a low power wide area network technology developed by 3GPP to enable connectivity for battery powered devices. It uses a narrow bandwidth of 200kHz within existing cellular spectrums to provide long battery life, support for many connected devices, and indoor coverage. NB-IoT can co-exist with 2G, 3G, and 4G networks and is expected to support over 3 billion connected devices by 2020 across various applications in industries like agriculture, healthcare, automotive and more. It operates with low data rates and focuses on enabling low cost, low power devices to wirelessly transmit infrequent small amounts of data over long distances.
5G’s Impact on Telecom Infrastructure 2019 report by Yole DéveloppementYole Developpement
Network evolution and 5G implementation are driving massive structural changes.
More information on: https://www.i-micronews.com/products/5gs-impact-on-telecom-infrastructure-2019/
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
The document discusses the evolution of IoT towards a super-connected world. It notes that IoT, together with technologies like cloud computing, big data analytics, and machine learning can help create new opportunities and business models. Key points discussed include:
- 3GPP has introduced NB-IoT and LTE-M cellular technologies to address the challenges of connecting a massive number of low-power IoT devices over wide areas.
- NB-IoT is designed for ultra-low-end IoT applications like smart meters and smart parking that require long battery life and wide coverage. LTE-M supports higher data rates for applications like tracking and wearables.
- Service providers need to adopt a strategy for
5G SA security: a comprehensive overview of threats, vulnerabilities and rem...PositiveTechnologies
This document discusses security threats and vulnerabilities in 5G standalone networks. It begins by introducing the speakers and providing background on Positive Technologies' experience in telecommunications security. It then outlines various attack vectors such as man-in-the-middle attacks and denial-of-service attacks on the 5G standalone core. The document explains that protocols like PFCP are similarly vulnerable to attacks as previous protocols like GTP. It argues that network operators should focus on prevention to avoid costly security failures. Finally, it discusses the challenges network operators face and how Positive Technologies can help through automated security products and expert services.
The document discusses network consolidation strategies for telecom companies. It describes how the T-Mobile and Orange joint venture in the UK consolidated their two networks, reducing radio nodes by 25% and site locations by 40% compared to standalone networks. It also discusses a network sharing agreement between Vodafone and Telefonica. Network consolidation can significantly reduce costs through synergies, but high restructuring costs and organizational complexity must be considered.
What is the difference between narrowband-IoT vs Lora in LPWAN technology?
The two Narrowband-IoT vs Lora technologies have different technical and commercial characteristics and therefore differ in terms of application scenarios. This article explains the differences between the Narrowband-IoT vs Lora two technologies and explains the application scenarios for which each is suitable.
Here have 6 main differences of Narrowband-IoT vs Lora comparisons.
Similar to Io t sagemcom - eucnc - 29062015 - v(0.3)-light (20)
Smart Digital Port Market Transformation thanks to Internet of Things (IoT), Artificial Intelligence (AI), Digital Twin, (private) 5G/B5G, C-V2X, and Robotics (incl. UAV/UTM).
Whilst first commercial deployments of the next 6th Generation Cellular Networks are estimated to land in 2030, bringing ubiquitous intelligence, hyper-connectivity, merging physical and cyber domains, triggering new usages and services, the Robotics market size is forecast to reach USD 214.68 billion, growing at a compound annual growth rate of 22.8% by 2030, with a valuation of approximately USD 340 billion by the end of 2040. We’ll thus highlight key usages and services within the wide domain of robotics that start to benefit from 5G/B5G, and that will be reinforced and upscaled thanks to 6G technology.
industry overview of technology (A.I, C-V2X, 5G/6G) and application (DMS/ADAS, A.V, A.R, ...) trends being deployed or coming in near future, to adress the challenge of the Decade for Road Safety: cutting deaths and injuries by 50% by 2030. Taking this opportunity to identify some 5G/B5G/6G promising features to support the vision.
A.I for Road Safety: Keystone for a Sustainable Urban Mobility Thierry Lestable
This document discusses how artificial intelligence can be used for road safety and sustainable urban mobility. It describes how AI-powered driver monitoring systems and advanced driver assistance systems can help reduce road accidents by detecting distracted or drowsy driving. It also discusses how AI and computer vision can help protect vulnerable road users like pedestrians and cyclists. Finally, the document outlines how smart infrastructure like connected traffic lights and roadside sensors using AI can help manage traffic flow and prioritize emergency vehicles. The overall aim is to accelerate the UN's goal of reducing road deaths and injuries by 50% by 2030 through innovative applications of AI technology.
LoRa Alliance role & vision for IoT Governance - Digital Single Market supporter & GDPR friendly, @ECTA Regulatory Conference in Brussels, 9th of November 2016
The document discusses the LoRa Alliance, an open non-profit association working to enable a global Internet of Things. Key points include:
- The Alliance's vision is for the IoT era to be open and available now using their LoRaWAN open standard protocol
- LoRaWAN is now open and commercially available, with over 155 member companies and 9 announced IoT deployments covering millions of people
- The Alliance is working to address priorities like certification, roaming and geolocation to further the LoRaWAN ecosystem and ensure interoperability.
- Various member companies are showcasing LoRaWAN-enabled IoT products and deployments in areas like smart cities, utilities
The document provides an overview of Internet of Things (IoT) technologies, including both short and long range wireless technologies. It discusses low power wide area network standards like LoRaWAN and SigFox, as well as cellular technologies like LTE, LTE-Advanced, and 5G. It covers a wide range of topics like network architecture, spectrum fragmentation issues, carrier aggregation techniques, and voice over LTE. The presentation aims to provide insight into both current and emerging IoT/M2M technologies and their applications from both a technical and market perspective.
Vision only 5G AnyBee (Anycasting Beyond the Edge)Thierry Lestable
The document discusses the 5G AnyBee project which aims to achieve "AnyTime AnyWhere AnyDevice AnyContent" (ATAWADAC) connectivity by pushing the network edge closer to end users. It does this through leveraging local capabilities and extending heterogeneous network concepts. The project focuses on innovations to support rising mobile video traffic demands and more localized, scalable and reactive networks. Key areas discussed include mobile video trends, LTE broadcast capabilities and trials, integrating digital TV distribution, and timeline aspects of 5G development.
20CDE09- INFORMATION DESIGN
UNIT I INCEPTION OF INFORMATION DESIGN
Introduction and Definition
History of Information Design
Need of Information Design
Types of Information Design
Identifying audience
Defining the audience and their needs
Inclusivity and Visual impairment
Case study.
Literature Reivew of Student Center DesignPriyankaKarn3
It was back in 2020, during the COVID-19 lockdown Period when we were introduced to an Online learning system and had to carry out our Design studio work. The students of the Institute of Engineering, Purwanchal Campus, Dharan did the literature study and research. The team was of Prakash Roka Magar, Priyanka Karn (me), Riwaz Upreti, Sandip Seth, and Ujjwal Dev from the Department of Architecture. It was just a scratch draft made out of the initial phase of study just after the topic was introduced. It was one of the best teams I had worked with, shared lots of memories, and learned a lot.
OCS Training Institute is pleased to co-operate with
a Global provider of Rig Inspection/Audits,
Commission-ing, Compliance & Acceptance as well as
& Engineering for Offshore Drilling Rigs, to deliver
Drilling Rig Inspec-tion Workshops (RIW) which
teaches the inspection & maintenance procedures
required to ensure equipment integrity. Candidates
learn to implement the relevant standards &
understand industry requirements so that they can
verify the condition of a rig’s equipment & improve
safety, thus reducing the number of accidents and
protecting the asset.
Response & Safe AI at Summer School of AI at IIITHIIIT Hyderabad
Talk covering Guardrails , Jailbreak, What is an alignment problem? RLHF, EU AI Act, Machine & Graph unlearning, Bias, Inconsistency, Probing, Interpretability, Bias
Social media management system project report.pdfKamal Acharya
The project "Social Media Platform in Object-Oriented Modeling" aims to design
and model a robust and scalable social media platform using object-oriented
modeling principles. In the age of digital communication, social media platforms
have become indispensable for connecting people, sharing content, and fostering
online communities. However, their complex nature requires meticulous planning
and organization.This project addresses the challenge of creating a feature-rich and
user-friendly social media platform by applying key object-oriented modeling
concepts. It entails the identification and definition of essential objects such as
"User," "Post," "Comment," and "Notification," each encapsulating specific
attributes and behaviors. Relationships between these objects, such as friendships,
content interactions, and notifications, are meticulously established.The project
emphasizes encapsulation to maintain data integrity, inheritance for shared behaviors
among objects, and polymorphism for flexible content handling. Use case diagrams
depict user interactions, while sequence diagrams showcase the flow of interactions
during critical scenarios. Class diagrams provide an overarching view of the system's
architecture, including classes, attributes, and methods .By undertaking this project,
we aim to create a modular, maintainable, and user-centric social media platform that
adheres to best practices in object-oriented modeling. Such a platform will offer users
a seamless and secure online social experience while facilitating future enhancements
and adaptability to changing user needs.
Understanding Cybersecurity Breaches: Causes, Consequences, and PreventionBert Blevins
Cybersecurity breaches are a growing threat in today’s interconnected digital landscape, affecting individuals, businesses, and governments alike. These breaches compromise sensitive information and erode trust in online services and systems. Understanding the causes, consequences, and prevention strategies of cybersecurity breaches is crucial to protect against these pervasive risks.
Cybersecurity breaches refer to unauthorized access, manipulation, or destruction of digital information or systems. They can occur through various means such as malware, phishing attacks, insider threats, and vulnerabilities in software or hardware. Once a breach happens, cybercriminals can exploit the compromised data for financial gain, espionage, or sabotage. Causes of breaches include software and hardware vulnerabilities, phishing attacks, insider threats, weak passwords, and a lack of security awareness.
The consequences of cybersecurity breaches are severe. Financial loss is a significant impact, as organizations face theft of funds, legal fees, and repair costs. Breaches also damage reputations, leading to a loss of trust among customers, partners, and stakeholders. Regulatory penalties are another consequence, with hefty fines imposed for non-compliance with data protection regulations. Intellectual property theft undermines innovation and competitiveness, while disruptions of critical services like healthcare and utilities impact public safety and well-being.
In May 2024, globally renowned natural diamond crafting company Shree Ramkrishna Exports Pvt. Ltd. (SRK) became the first company in the world to achieve GNFZ’s final net zero certification for existing buildings, for its two two flagship crafting facilities SRK House and SRK Empire. Initially targeting 2030 to reach net zero, SRK joined forces with the Global Network for Zero (GNFZ) to accelerate its target to 2024 — a trailblazing achievement toward emissions elimination.
Profiling of Cafe Business in Talavera, Nueva Ecija: A Basis for Development ...IJAEMSJORNAL
This study aimed to profile the coffee shops in Talavera, Nueva Ecija, to develop a standardized checklist for aspiring entrepreneurs. The researchers surveyed 10 coffee shop owners in the municipality of Talavera. Through surveys, the researchers delved into the Owner's Demographic, Business details, Financial Requirements, and other requirements needed to consider starting up a coffee shop. Furthermore, through accurate analysis, the data obtained from the coffee shop owners are arranged to derive key insights. By analyzing this data, the study identifies best practices associated with start-up coffee shops’ profitability in Talavera. These findings were translated into a standardized checklist outlining essential procedures including the lists of equipment needed, financial requirements, and the Traditional and Social Media Marketing techniques. This standardized checklist served as a valuable tool for aspiring and existing coffee shop owners in Talavera, streamlining operations, ensuring consistency, and contributing to business success.
A brand new catalog for the 2024 edition of IWISS. We have enriched our product range and have more innovations in electrician tools, plumbing tools, wire rope tools and banding tools. Let's explore together!
Exploring Deep Learning Models for Image Recognition: A Comparative Reviewsipij
Image recognition, which comes under Artificial Intelligence (AI) is a critical aspect of computer vision,
enabling computers or other computing devices to identify and categorize objects within images. Among
numerous fields of life, food processing is an important area, in which image processing plays a vital role,
both for producers and consumers. This study focuses on the binary classification of strawberries, where
images are sorted into one of two categories. We Utilized a dataset of strawberry images for this study; we
aim to determine the effectiveness of different models in identifying whether an image contains
strawberries. This research has practical applications in fields such as agriculture and quality control. We
compared various popular deep learning models, including MobileNetV2, Convolutional Neural Networks
(CNN), and DenseNet121, for binary classification of strawberry images. The accuracy achieved by
MobileNetV2 is 96.7%, CNN is 99.8%, and DenseNet121 is 93.6%. Through rigorous testing and analysis,
our results demonstrate that CNN outperforms the other models in this task. In the future, the deep
learning models can be evaluated on a richer and larger number of images (datasets) for better/improved
results.
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Io t sagemcom - eucnc - 29062015 - v(0.3)-light
1. The Cellular IoT Landscape:
a disruptive opportunity for IoT NOW!
T. Lestable, Ph.D
Technology & Innovation,
Office of CTO
SAGEMCOM SAS
2. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization2
Internet of Everything (IoE) is coming…sooner than you think
By 2020:
* [30-50] Billion devices connected
* $7,1 Trillion Global Market
3. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization3
IoT/M2M, Beyond the Hype…
http://www.gartner.com/newsroom/id/2575515
5G??
4. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization4
IoT early stage investments (2013)
Cellular IoT
$25M
$115M
$25M
$11M
5. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization5
Overall IoT Market Forecast by 2025
Source: McKinsey, June 2015
True revolution is
not coming from
where you might
think….
Industrial IoT is
leading the Market !
6. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization6
Strategic IoT Use Cases/Services (illustrations)
7. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization7
Waste Collection for Smart Cities, By ENEVO
Waste Collection optimized route
Waste Container connected sensor
http://www.enevo.com/
Finland
Ultrasonic fill level sensor
10+ years battery life
IP 66, [-40°, +85°]
8. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization8
Geolocation, by Abeeway
http://www.abeeway.com/
Location: Grenoble, FR
- Up to 1 year of battery
autonomy
- Small and handy size (starts at
6cm / 2,4in)
On-demand geolocation
Daily updates
Movement alerts
Notification in case of exit from boundary
Device paging as needed
Light up the device
N.B: integrates GPS Rx & motion sensor in V1
9. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization9
Fire/CO2 Detection & Alarms, by FINSECUR
10 years battery life
Up to 10 ‘DAAF’ (Detectors) interconnected
Std: EN 14604
HQ Nanterre, FR
http://www.finsecur.com/index.php
1st samples should be
available by July
10. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization10
IoT Segment Trade-offs
Source: LoRa AllianceSOM = Share Of Market
Unlicensed bands!
11. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization11
Emerging De-facto LRLP standards
Vs
‘De-facto’ standards
IOT, Multi-Vendors, Certification
Source: McKinsey, June 2015
Open Standard
12. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization12
13. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization13
LTE Networks’ Deployments – May 2015
393 Networks launched in 138 Countries
+460 by end of 2015!
+497 Million LTE Subsc. (Q4’14)
Source: GSA
14. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization14
LTE Subscribers – More than 497 Million worlwide (Q2’2015)
Source: Ovum WCIS (GSA)
LTE subs. In Millions
APAC = 47%
N.A = 33%
Europe = 16%
RoW = 4%
China added +54Million LTE subs in Q4 2014!
15. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization15
LTE MTC: Cat.0 (Rel.12) & Beyond
Source: Ericsson
MTC
• Low Cost (Reduced
complexity)
• Low throughput (1Mbps
maxi)
• Better
penetration/Coverage
• 15-20dB
enhanced
• 5-10 years battery life
• Long sleep cycles
(x100)
• Add-ons
• D2D
• LTE-U
This is indeed a good direction…
But @ What Price & When?
16. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization16
5G Hype…. 5G is Coming but WHEN?? (2020)
Rel.12 Rel.13 Rel.14 Rel.15 Rel.16
5G
1st Rel.12 commercial deployment
1st Rel.13 commercial deployment
5G Standard5G Research, prototypes 5G Product 5G Roll-out
2021
N.B: 3GPP Rel.13 is slipping away towards Q4’16! LTE-M around H2’18
17. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization17
• 3GPP Release 13 Timeline
3GPP Status – Cellular IoT (as of June 2015)
Qx’16?Aug15 Sep15 Oct15 Nov15 Dec15 Jan16 Feb16 Mar16Jul15
GSM Evolution
Clean Slate
Solution
LTE-M 3GPP RAN
End of
Release 13
3GPP
GERAN
GERAN
CSSCIoTWI
EndofCIoTSI RAN
GERAN / RAN?
RAN/GERANMergePlan
GERAN#67
RAN#69
PCG#35
Normative work of LTE-M and in parallel of a CSS
(initial) Target of CSS is Rel.13
Q4’16?
slipping
This is ‘SigLo’ or ‘LoFox’ effect…
Indeed, SigFox then LoRa™ acted as catalysts!!
Stakeholders realized that true IoT business can be done NOW with low
TCO!
18. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization18
3GPP Cellular IoT: Clean Slate & GSM Evolution
included in TR 45.820
Only proposals,
not included
in Technical Report TR 45.820
19. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization19
Complementarity LTE-MTC & LPWAN
In spite of 3GPP well appreciated efforts to simplify & optimize
the radio profiles & mechanisms to embrace true nature of
MTC/IoT, it is believed the Total Cost of Ownership (TCO)
will be many order of magnitude above LPWAN!!!...
Especially the radio modules will face a Floor effect under
which they’ll never be able to go down!
The Time to Market (TTM) for LTE-M is availability in H2’2018.
We see LPWAN LoRa™ as complementary to 3GPP LTE
path, similarly to WiFi now interfaced with LTE (e.g.
Passpoint).
The true need would be to specify CoreNetwork APIs, and
protocols to have smooth integration and interworking of both
systems whenever needed.
20. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization20
22. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization22
SigFox – Uplink & Downlink
GFSK – 600bps
@869.525 MHz
8 bytes Max
UNB – 100bps
@868 MHz
12 bytes Max
Repetition = 3
FIXED for any deviceUPLINK
DOWNLINK
23. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization23
SigFox – Registers & commands
No OTA provisionning!
SigFox doesn’t offer any Link Adaptation mechanisms to cope with Variable Wireless
Environment.
This also means no fallback mechanisms available (to increase robustness), nor
optimized battery consumption management when conditions are good.
Provisioning is done at manufacturing only.
Finally, given the DELAY (20s) between DL and 1st UL msg, impossible to use it with
minimum Latency constraint application, and the size of DL (8 bytes) definitely limits
reconfiguration of device, and of course firmware update.
24. Besides SigFox, are there any
other Challengers to LoRa™?
OnRamp, Telensa & Neul…
Qowisio,
25. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization25
OnRamp: Oil & Gas Fields through Random Phase Multiple Access
characteristics OnRamp
DSSS RPMA
Spreading Factor
(SF)
Max 2^13 = 8192
Freq.band 2.4GHz
BW 1 MHz
Topology Star
Sensitivity -142dBm
Max throughput ~20kbps
Coverage Rural: 16Kms
Urban: 4Kms
Due to CDMA-like, requires complex Power
Control to ensure orthogonality amongst
users, and high computation at BS.
The 2.4GHz band is highly crowded, not
right choice for future.
Very limited Ecosystem (adopters), highly
focused on Oil & Gas Fields, small
Lighting systems.
26. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization26
Telensa: City Lighting system through UNB
characteristics TELENSA
Network Topology STAR
Radio interface Bidirectional, Ultra-Narrow Band
(UNB)
Protocol Proprietary, TALQ* compatible
Node-to-GW range 5-8Kms in Rural
2-3 kms in Urban
Cell (BS) capacity 5K nodes/endpoints (Telecells)
CoreNetwork
Capacity
150K nodes 30 BS
Backhaul Cellular
http://www.talq-consortium.org/
This solution inherited from Outdoor
Lighting Networks is NOT relevant
for Massive LPWAN IoT Roll-out.
Coverage, Capacity & scalability are
clearly not appropriate.
27. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization27
The Challengers: Weightless & Telensa
Hardware
(Modules & Gateway)
Board
Specifications
smallscaletests
-N
Weightless-N (UNB) is created
White space is dropped (W)
UNB Proprietary solution
Street Lightning
&
Smart Parking
Solution deployed
Accross 30 countries.
Mostly UK though: 650K Sensors
San-Francisco Trial since 2014
Behind schedule for defacto approach, with lack of adopters &
manufacturers, but might bet on 5G mid-term/long-term, backed by
Huawei
Doomed to stay
proprietary & niche
market.
28. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization28
29. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization29
LoRa™ Network Features
30. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization30
What do you need to deploy a LoRa Network ?
End Points LoRa Infrastructure :
• Base Stations
• Site acquisition
• Site Construction
• Radio Planning
• Site Operation & Maintenance
Business Apps,
Sales &
Administrative
• LoRa Back Office/LNS
Platform
• APIs
• Storage
• Channel Management
• Invoicing
Secured Ip
Connection
SNMP,
IPV6,HTTP
…
31. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization31
LoRa™ PHY Layer: Chirp Spread Spectrum (CSS) / IEEE 802.15.4a
𝑠 𝑡 = 𝑒
−𝑖𝜋∗𝐵𝑊∗ 𝑡−
𝑡2
𝑇𝑠
𝑇𝑠 =
2 𝑆𝐹
𝐵𝑊
𝑇𝑐ℎ𝑖𝑟𝑝 =
1
𝐵𝑊
𝑇𝑠 = 2 𝑆𝐹 ∗ 𝑇𝑐ℎ𝑖𝑟𝑝
Linear Frequency Modulation (LFM)
Spreading Gain
𝛽𝜏 = 𝐵𝑊 ∗ 𝑇𝑠 = 2 𝑆𝐹 ≫ 1
LoRa™ PHY inherits its properties from
RADAR technology, and its maturity in
Telecom from IEEE 802.15.4a (WPAN)
32. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization32
LoRaWAN device classes
33. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization33
LoRa™: Bidirectional communications
Class A: Receiver Initiated Transmission strategy (RIT)
Class B: Coordinated Sampled Listening (CSL)
Network may send downlink packet to node at any Rx slot
Class C: Continuous Listening
LoRa™ is
fully
bidirectionnal
from early
stage.
Three Modes
(Class A, B,
C) allow to
embrace
Industry 4.0
strong
segment of
applications.
Latencyconstrainedapplications
PowerEfficiency
34. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization34
LoRA™ nodes protocols
• Ultra small/low power
• 10x5x5 cm, <3Watt
• Multiple channels & data rates
• 8 channels
• Best sensitivity
• -142dBm @300bps
• -129dBm @6Kbps
• Antenna Diversity
- Variable Spreading Factors
- (SF7-SF12)
- Data rates
- [0.3Kbps – 50Kbps]
- Pseudo-random Channel Hoping
- Duty-cycle limited (NO LBT)
- 3 classes of Devices
- Class A: Bi-directional with
2 Rx windows
- Class B: Bi-directional with
additional scheduled Rx
slots
- Class C: Continuous Rx
2 End-Device
Activation Methods:
- Over The Air
Activation (OTAA)
- Activation By
Personalization
(ABP)
Class A
35. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization35
Multiple Overlapping Networks on the same territory & roaming
1) LoRa™ Alliance defines mechanisms enabling Multiple
Operators to deploy their network on the same territory, sharing
radio resources whilst optimizing global capacity thanks to Link
Adaptation (Adaptive Data Rate, ADR) optimization/RRM.
2) The LoRa™ alliance currently drafts « Best practice » and
APIs in order to standardize also international Roaming, similarly
to GSMA in 2G/3G/4G (TAP3 Open Standard).
36. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization36 This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization36
37. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization37
LPWAN Killing application = Localization whilst saving battery!
TDOA
RSS
DRSS
Data Fusion
& hybrid
solutions
are natural
solutions
thanks to
flat IP
architecture
Localization is a « MUST HAVE » for
many industrial 4.0 applications, and
thus KEY Differentiator amongst IoT
Systems.
38. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization38
TDOA Basics
𝑇𝑂𝐴𝑖 = 𝑇𝑒 + 𝑇𝑂𝐹𝑖
𝑇𝑂𝐴𝑗 = 𝑇𝑒 + 𝑇𝑂𝐹𝑗
Δ𝑇𝑂𝐴𝑖𝑗 = 𝑇𝑂𝐴𝑖 − 𝑇𝑂𝐴𝑗 = 𝑇𝑂𝐹𝑖 − 𝑇𝑂𝐹𝑗
𝑇𝑒 is not needed no need to
synchronize EndPoint with BS
Hyperbolic localization
Δ𝑇𝑂𝐴𝑖𝑗 = 𝑑 𝑖
𝑐
−
𝑑 𝑗
𝑐
=
1
𝑐
𝑑 𝑖−𝑑 𝑗
LOS assumed
𝑑𝑖
𝑇𝑒
𝑇𝑂𝐴𝑖
𝑥
𝑦
𝑥𝑖
𝑦𝑖
𝑑𝑖 − 𝑑𝑗 = 𝛿𝑖𝑗 = 𝑐Δ𝑇𝑂𝐴𝑖𝑗
𝑑𝑖 = 𝑑𝑗 + 𝛿𝑖𝑗 𝑑2
𝑖 = 𝑑2
𝑗 + 𝛿2
𝑖𝑗 + 2𝑑𝑗 𝛿𝑖𝑗
𝑑2
𝑖 = 𝑥 − 𝑥𝑖
2
+ 𝑦 − 𝑦𝑖
2
constant
−2𝑥 𝑥𝑖 − 𝑥1 − 2𝑦 𝑦𝑖 − 𝑦1 − 2𝑑1 𝛿𝑖1
𝑥
𝑦
𝑑1
= 𝑋Linear w.r.t 𝐴 ∗ 𝑋 = Δ
Known Constant
39. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization39
TDOA (Weighted Least Square) – influence of SF
SF7
SF9
SF12
SF12
SF7
- No Multi-path/fast fading
(1000EPs, 1 transmission/EP)
IncreasedSFincreasedcoveragehigherNbofRxGWs
To get full benefits from LoRa™ degrees of
freedom (ADR, TxPr, densification,…), joint
Optimization is required …designing RRM
40. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization40
Sagemcom - Femto LoRa integration
• An easy way to increase the densification to :
• Connect additionnal objects
• Connect inhome appliances
• Enhance the accuracy
• LoRa in the Home residential Gateway (RGW) :
• Plugging an OTT module on existing Home residential
Gateway (RGW) via interface.
• Or directly integrated/embedded within the ISP RGW
• LoRa capabilities managed from LoRa servers :
• Low software impact inside the Home residential
gateway itself (mainly driver of the Module and
passthrough interface to the Lora Server)
Home residential
Gateway
Femto LoRa
41. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization41 This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization41
42. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization42
• LoRA Alliance announced during CES 2015 in Las Vegas
• http://lora-alliance.org/
IoT – Long Range Low Power (LRLP): LoRA Alliance
43. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization43
LoRa Alliance – Sample of Members (+70 members)
Operators
Sponsor Members Contributor Members
AdoptorMembers
+New Operators
(worldwide)
44. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization44 This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization44
45. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization45
More Spectrum should be made available for IoT Business
Innovation
[870-876] MHz & [915-921] MHz
Open to SRD, RFID
- Albania
- Moldova
- Slovak Republic
- Slovenia
- Sweden
- UK
Alignment, Harmonization with
US ISM band
[863-870] MHz
46. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization46 This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization46
47. This document and the information contained are Sagemcom property and shall not be copied or disclosed to any third party without Sagemcom prior written authorization47
LPWAN IoT Systems – Now & Tomorrow
LPWAN are changing already the rules of competition by
proposing new disruptive business models, thanks to tailored
technology, well dimensionned from the beginning with the true
fondamental and simple primary needs from major industrial
IoT:
- (Very) Low Power
- (Very) Long Range
- (Very) Low Cost (TCO)
This allows new actors to join the Connected Economy, by
adopting available & affordable wireless technology, with simple
& fast roll-out.
Simplifying IoT roll-out will massively
benefit value extraction from data, and
its monetization.
Innovative & disruptive business is emerging from ISM bands
technologies (e.g. WiFi, RFID, SRD, and now IoT), Regulators
should bear that in mind, whilst LTE-U/LAA is crossing the line…