SmartSantander: Punto de encuentro entre la investigación en la Internet del Futuro y la Smart City.
D. Luis Sánchez González (Universidad de Cantabria)
Actility and Factory Systemes explain how IoT is transforming industry.Actility
Our latest webinar is about Industrial IoT and how to transform your business with LoRaWAN. You will learn how IoT is revolutionizing manufacturing; discover why “un-wiring” is a key trend in industry 4.0; understand why LoRaWAN is the industrial IoT network of choice; hear Factory Systemes explain real-world use cases and deployments; and take a guided tour of ThingPark Enterprise, Actility’s platform for industrial IoT networks.
Whitepaper - How to build a mutil-technology scalable IoT Connectivity Platform?Actility
In this paper, we investigate the challenges facing service providers and enterprises for deploying and monetizing LPWAN solution.
We show in this paper that the traditional M2M approach might not be cost-effective for the needs of LPWAN IoT deployments due to dramatically lower ARPU requirements of IoT compared to traditional M2M. We also examine both cellular IoT (NB-IoT or Cat-NB1, Cat-M1, Cat-1) and LoRaWAN, with the objective to demonstrate the complementary aspects of the two technologies. 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.
Properly matching a connectivity solution to a use case is a complex multidimensional problem requiring analysis of several factors including battery lifetime, coverage, throughput, latency, total cost of ownership (TCO), amongst other factors. We discuss these factors and attempt to build a technology selection chart, and then build a business case for multi-technology IoT platform that leverages both LoRaWAN and Cellular IoT to serve the needs of all IoT use cases. We also provide insights on the service provider strategy for LPWAN deployment with examples from Tier-1 MNOs such as SK Telecom and Orange.
Finally, we conclude the paper with overview of ThingPark Wireless as a multi-technology platform that addresses the challenges for both LoRaWAN and Cellular IoT deployments.
White Box Hardware Challenges in the 5G & IoT Hyperconnected EraCharo Sanchez
The development of an agile mobile network that supports a massive number of connected devices, low latencies, broadband speeds, network slicing, and edge intelligence is the result of a number of technologies that form the 5G vision. Advantech 5G Edge Servers and Universal Edge Appliances have been designed for the network edge to meet high availability network needs providing an open virtual infrastructure for seamless network transformation toward cloud native 5G architectures. From SD-WAN and private networks to virtual RAN, Central Office and Edge Cloud, Advantech is enabling the co-creation of products and services that will form the backbone of the new 5G & IoT economy.
www.advantech.com/nc/spotlight/5G
Actility and Factory Systemes explain how IoT is transforming industry.Actility
Our latest webinar is about Industrial IoT and how to transform your business with LoRaWAN. You will learn how IoT is revolutionizing manufacturing; discover why “un-wiring” is a key trend in industry 4.0; understand why LoRaWAN is the industrial IoT network of choice; hear Factory Systemes explain real-world use cases and deployments; and take a guided tour of ThingPark Enterprise, Actility’s platform for industrial IoT networks.
Whitepaper - How to build a mutil-technology scalable IoT Connectivity Platform?Actility
In this paper, we investigate the challenges facing service providers and enterprises for deploying and monetizing LPWAN solution.
We show in this paper that the traditional M2M approach might not be cost-effective for the needs of LPWAN IoT deployments due to dramatically lower ARPU requirements of IoT compared to traditional M2M. We also examine both cellular IoT (NB-IoT or Cat-NB1, Cat-M1, Cat-1) and LoRaWAN, with the objective to demonstrate the complementary aspects of the two technologies. 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.
Properly matching a connectivity solution to a use case is a complex multidimensional problem requiring analysis of several factors including battery lifetime, coverage, throughput, latency, total cost of ownership (TCO), amongst other factors. We discuss these factors and attempt to build a technology selection chart, and then build a business case for multi-technology IoT platform that leverages both LoRaWAN and Cellular IoT to serve the needs of all IoT use cases. We also provide insights on the service provider strategy for LPWAN deployment with examples from Tier-1 MNOs such as SK Telecom and Orange.
Finally, we conclude the paper with overview of ThingPark Wireless as a multi-technology platform that addresses the challenges for both LoRaWAN and Cellular IoT deployments.
White Box Hardware Challenges in the 5G & IoT Hyperconnected EraCharo Sanchez
The development of an agile mobile network that supports a massive number of connected devices, low latencies, broadband speeds, network slicing, and edge intelligence is the result of a number of technologies that form the 5G vision. Advantech 5G Edge Servers and Universal Edge Appliances have been designed for the network edge to meet high availability network needs providing an open virtual infrastructure for seamless network transformation toward cloud native 5G architectures. From SD-WAN and private networks to virtual RAN, Central Office and Edge Cloud, Advantech is enabling the co-creation of products and services that will form the backbone of the new 5G & IoT economy.
www.advantech.com/nc/spotlight/5G
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.
LoRaWAN and 3GPP technologies cover all Industrial IoT use casesErika Gelinard
we examine both Mobile IoT (NB-IoT, Cat-M1, Cat-1) and LoRaWAN, with the objective to demonstrate the complementary aspects of the two technologies. We show how operators tap into unlicensed IoT market space using LoRaWAN and complement it with licensed Mobile IoT.
Artificial Intelligence (AI) is revolutionizing industries, products, and core capabilities by delivering dramatically enhanced experiences. However, this is just the start of the AI revolution. The field of AI, especially deep learning, is still in its infancy with tremendous opportunity for exploration and improvement. For instance, deep neural networks of today are rapidly growing in size and use too much memory, compute, and energy. To make AI truly ubiquitous, it needs to run on the end device within a tight power and thermal budget. New approaches and fundamental research in AI, as well as applying that research, is required to advance machine learning further and speed up adoption. View this presentation to learn about select research topics that Qualcomm AI Research is investigating, including:
o AI model optimization research for power efficiency, including our latest quantization research
o Applied AI research, such as using deep learning for improved radar functionality
o Fundamental AI research, such as source compression and quantum AI
Actility and Solvera Lynx webinar: LoRaWAN for smart citiesActility
SUMMARY
Actility is hosting a joint webinar with our partner Solvera Lynx to provide an overview of smart city solutions including energy management, smart parking, smart lighting and waste management. Real-life projects will then be used to demonstrate the possibilities and achievements to date.
IN THIS WEBINAR YOU WILL LEARN:
about smart city key applications for LoRaWAN
about key trends
how LoRaWAN enables energy monitoring, efficiency and flexibility
how to create cost savings for your facilities
about environmental and carbon emissions monitoring
what the best technologies and systems are for your facilities
how LoRaWAN can improve your projects
about relevant use cases
Qualcomm is an at-scale company. It powered the smartphone revolution and connected billions of people. It pioneered 3G and 4G, and now it is leading the way to 5G and a new era of intelligent, connected devices. Mobile is going to be the largest machine learning platform on the planet. Come learn how Qualcomm is making efficient on-device machine learning possible, how Qualcomm and Facebook worked closely to support machine learning in Facebook applications, and what’s next for Qualcomm and AI.
Orange IoT and LPWA Connectivity White Paper-EN-2018Orange Dev
Everything you need to know about IoT & LPWA networks (Low Power Wide Area) and their transformative potential for businesses and consumers alike in this white paper created by Orange. It includes:
An overview of LPWA technologies and their use cases across many verticals
In-depth looks at LoRa®, LTE-M and NB-IoT networks
The Orange view on the future of IoT for businesses and consumers
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
Accelerating performance on Qt and WebKit for the MIPS architectureaccount inactive
Delivering the Best Web Experience for Embedded Devices.
Presentation held during Qt Developer Days 2009.
http://qt.nokia.com/developer/learning/elearning
5G + AI: The Ingredients For Next Generation Wireless InnovationQualcomm Research
5G and AI are two of the most disruptive technologies the world has seen in decades. While each is individually revolutionizing industries and enabling new experiences, the combination of both 5G and AI is going to be truly transformative. Applying AI not only to the 5G network but also the device will lead to more efficient wireless communications, longer battery life and enhanced user experiences. The low latency and high capacity of 5G will also allow AI processing to be distributed amongst the device, edge cloud and central cloud, enabling flexible system solutions for a variety of use cases. At Qualcomm Technologies, we are not only working on cutting-edge research for 5G and AI, but we are also exploring their synergies to realize our vision of the future. View this presentation to learn how AI is making 5G better -- in the network and on the device, why on-device AI processing is essential, and how 5G is empowering distributed learning over wireless.
Securing, Integrating and Branding Your Social Spacetibbr
Collaboration strategist David Soul explains how to incorporate social in everything from your intranet to your internal systems, plus, keep IT happy too!
For more information, please visit http://www.tibbr.com/
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.
LoRaWAN and 3GPP technologies cover all Industrial IoT use casesErika Gelinard
we examine both Mobile IoT (NB-IoT, Cat-M1, Cat-1) and LoRaWAN, with the objective to demonstrate the complementary aspects of the two technologies. We show how operators tap into unlicensed IoT market space using LoRaWAN and complement it with licensed Mobile IoT.
Artificial Intelligence (AI) is revolutionizing industries, products, and core capabilities by delivering dramatically enhanced experiences. However, this is just the start of the AI revolution. The field of AI, especially deep learning, is still in its infancy with tremendous opportunity for exploration and improvement. For instance, deep neural networks of today are rapidly growing in size and use too much memory, compute, and energy. To make AI truly ubiquitous, it needs to run on the end device within a tight power and thermal budget. New approaches and fundamental research in AI, as well as applying that research, is required to advance machine learning further and speed up adoption. View this presentation to learn about select research topics that Qualcomm AI Research is investigating, including:
o AI model optimization research for power efficiency, including our latest quantization research
o Applied AI research, such as using deep learning for improved radar functionality
o Fundamental AI research, such as source compression and quantum AI
Actility and Solvera Lynx webinar: LoRaWAN for smart citiesActility
SUMMARY
Actility is hosting a joint webinar with our partner Solvera Lynx to provide an overview of smart city solutions including energy management, smart parking, smart lighting and waste management. Real-life projects will then be used to demonstrate the possibilities and achievements to date.
IN THIS WEBINAR YOU WILL LEARN:
about smart city key applications for LoRaWAN
about key trends
how LoRaWAN enables energy monitoring, efficiency and flexibility
how to create cost savings for your facilities
about environmental and carbon emissions monitoring
what the best technologies and systems are for your facilities
how LoRaWAN can improve your projects
about relevant use cases
Qualcomm is an at-scale company. It powered the smartphone revolution and connected billions of people. It pioneered 3G and 4G, and now it is leading the way to 5G and a new era of intelligent, connected devices. Mobile is going to be the largest machine learning platform on the planet. Come learn how Qualcomm is making efficient on-device machine learning possible, how Qualcomm and Facebook worked closely to support machine learning in Facebook applications, and what’s next for Qualcomm and AI.
Orange IoT and LPWA Connectivity White Paper-EN-2018Orange Dev
Everything you need to know about IoT & LPWA networks (Low Power Wide Area) and their transformative potential for businesses and consumers alike in this white paper created by Orange. It includes:
An overview of LPWA technologies and their use cases across many verticals
In-depth looks at LoRa®, LTE-M and NB-IoT networks
The Orange view on the future of IoT for businesses and consumers
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
Accelerating performance on Qt and WebKit for the MIPS architectureaccount inactive
Delivering the Best Web Experience for Embedded Devices.
Presentation held during Qt Developer Days 2009.
http://qt.nokia.com/developer/learning/elearning
5G + AI: The Ingredients For Next Generation Wireless InnovationQualcomm Research
5G and AI are two of the most disruptive technologies the world has seen in decades. While each is individually revolutionizing industries and enabling new experiences, the combination of both 5G and AI is going to be truly transformative. Applying AI not only to the 5G network but also the device will lead to more efficient wireless communications, longer battery life and enhanced user experiences. The low latency and high capacity of 5G will also allow AI processing to be distributed amongst the device, edge cloud and central cloud, enabling flexible system solutions for a variety of use cases. At Qualcomm Technologies, we are not only working on cutting-edge research for 5G and AI, but we are also exploring their synergies to realize our vision of the future. View this presentation to learn how AI is making 5G better -- in the network and on the device, why on-device AI processing is essential, and how 5G is empowering distributed learning over wireless.
Securing, Integrating and Branding Your Social Spacetibbr
Collaboration strategist David Soul explains how to incorporate social in everything from your intranet to your internal systems, plus, keep IT happy too!
For more information, please visit http://www.tibbr.com/
Engaged vs Disengaged Employees [Infographic]tibbr
Let’s take a look at a comparison of two types of coworkers and how enterprise social networking boosts employee engagement overall. - See more at: http://www.tibbr.com/blog/#sthash.w7n1aepd.dpuf
Enterprise social networking is a garden. Discover how to harvest all the benefits of enterprise social with tibbr!
For more information, please visit http://www.tibbr.com/
Sensor Technologies for Smart City services” by Jose M. Hernandez-Munoz The Smart Santander project at Smart Cities & the Future Internet organised by Fireball, Eurocities and ENoLL on January 25th, 2012.
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
Fin fest 2014 - Internet of Things and APIsRobert Greiner
An overview of the core concepts behind the ultra-hyped Internet of Things. We start the presentation with an overview and slight re-classification of what the Internet of Things is. Then, we jump into how to *serve* the internet of things - discussing a homebrew project using the RaspberryPi and Microsoft Azure.
IIoT Digital Transformation for Plant Equipment MonitoringYokogawa1
Even in the age of Digital Transformation, non-mission critical plant equipment is monitored by daily manual operator rounds or may go unmonitored altogether. This lack of information about equipment status can lead to reactive maintenance and downtime. By adding a wireless sensor network and analytical software designed with non-mission critical equipment in mind, plants can gain visibility to all assets, detect abnormal conditions, predict failures, and prescribe proactive maintenance to keep equipment healthy and running optimally.
Presentation held at Fachkongress des IT-Planungsrats, Stuttgart 2014 by Mojca Volk and Janez Sterle (University of Ljubljana) and Gerold Gruber, Citkomm, Deutschland
Meetup 4/2/2016 - Functionele en technische architectuur IoTDigipolis Antwerpen
Meetup waar we samen met iedereen die interesse heeft nadenken over een open IoT architectuur voor Antwerpen.
http://www.meetup.com/DigAnt-Cafe/events/228254825/
The "Internet of Things" (IoT) has been around a long time and is becoming an increasingly growing topic. It has already impacted on our everyday lives at the workplace and at home.
Come and dive in for a night of exploration as we speak about some amazing products, IoT trends, current landscape and what the future will hold
There will be short IoT presentations as well as a panel of IoT panel speakers for you to engage and ask questions.
Sagemcom Speech regarding Major Trends with IoT LPWAN Geoloction challenges, and products solutions such as GPS Offload, WiFi sniffing, BLE proximity, and of course including native triangulation from LoRaWAN, whch brings overall disruption.
FIWARE Global Summit - Building Production Grade IoT Platform Leveraging FIWAREFIWARE
Presentation by Parwinder Singh (Technical Specialist, NEC Technologies India Pvt Ltd.) and Satinder Jeet Singh (Group Project Manager, NEC Technologies India Pvt Ltd.)
FIWARE Global Summit
23-24 October 2019 - Berlin, Germany
This is a brief description of our work at E4 Technologies (www.e4technologies.net). This includes development of use cases of our internet of things platform.
PERFORMANCE EVALUATION OF A DIRECT SAMPLING GNSS RECEIVERTELECOM I+D 2011
The proliferation of different GNSS systems (GPS L2 & L5, Galileo, etc) opens new possibilities in the design of new receivers which could take advantage of the different options available. The use of extra GNSS systems can improve end user accuracy and service availability. A very interesting option is to produce an all digital receiver which has the advantage of not increasing the hardware elements while providing the flexibility needed in order to cope with different signals. In this letter a special digital signal processing is used in order to employ a single front-end for different frequency bands: GPS L1 and Galileo E5 bands. We gauge the competence of a hardware implementation on a FPGA of such a front-end aided with a code tracking loop and show empirical results of the effects of a jammering signal on the system.
EVALUACIÓN DE LA EFICIENCIA ENERGÉTICA DE UN ESQUEMA DE APAGADO SELECTIVO EN ...TELECOM I+D 2011
En la actualidad, la gran mayoría de usuarios hacen uso de las tecnologías móviles de segunda generación, sin embargo los operadores y proveedores de servicio comienzan a invertir en agresivos despliegues de redes móviles de banda ancha que permitan proporcionar un acceso inalámbrico a Internet con todas las funciones. Mientras el foco principal de la investigación se ha concentrado en mejorar la capacidad de este tipo de redes, pocos avances se han registrado en relación a su eficiencia energética. El primordial objetivo de este artículo consiste en estudiar, por medio de modelos analíticos, cuáles son las posibilidades en términos de reducción de consumo energético a partir de esquemas simples de gestión de red. Considerando el peor caso que típicamente se usa para el diseño de estas redes, presentamos cuáles podrían ser los límites de un enfoque de gestión de red en el que algunas de las estaciones dando servicio a un área concreta se apaguen. Para la evaluación se utilizarán modelos de tráfico tanto teóricos como reales.
CAPACIDAD Y GRADO DE SERVICIO EN DESPLIEGUES MASIVOS DE FEMTOCELDAS 3GTELECOM I+D 2011
Femtocells are low-power low-cost small cellular base stations that increase indoor coverage for current voice and high-speed data services as well as provide a basis for next-generation convergent services. Beside that, femtocells offer a seamless transition to the fixed environment. They are an alternative way to take advantage of the benefits of Fixed Mobile Convergence, offering an ubiquitous user experience across all environments, and making use of existing personalized wireless devices, without requiring new dual-mode handsets which work with 3G base stations and Wi-Fi access points. In this paper 3G-femtocell auto-deployments performance in residential scenarios have been studied in terms of capacity and grade of service, analyzing the requirements for a successful deployment of femtocells as a fixed mobile convergent solution.
A HYBRID DTN/MANET COMMUNICATION MODEL FOR ENERGY CRITICAL INFRASTRUCTURE PRO...TELECOM I+D 2011
This paper summarizes the work carried out within DMRS Project, which defines an advanced communications model capable of improving the security and resilience for critical infrastructures, especially against man-made attacks (terrorism) or natural disasters. This model is based on a hybrid network architecture, which combines the advantages of different wireless technologies, such as Delay/Disruptive Tolerant Networking, Mobile Ad-hoc Networks, and Wireless Sensor Networks. The project has been partially funded by the Directorate-General for Home Affairs of the EU, addressing 18 months of research, starting in October 2009 and involving 3 partners: Universidad Politécnica de Madrid (UPM), REPSOL and INDRA (acting as coordinator).
ANÁLISIS DE VIABILIDAD Y RENDIMIENTO DE UN SISTEMA LTE COGNITIVOTELECOM I+D 2011
La Radio Cognitiva (CR) emerge como una posible solución al problema del uso ineficiente de espectro ocasionado por una política de asignación fija de frecuencias. De entre los mecanismos facilitados por CR destaca el acceso dinámico al espectro donde se pretende hacer un uso oportunista de ciertas bandas licenciadas a otros servicios siempre y cuando éstas estén disponibles. Dicha operación requiere de una consciencia espectral para no provocar interferencias con los sistemas licenciados en dichas bandas. En este escenario, cobra especial relevancia el estudio de sistemas de comunicaciones móviles capaces de mejorar su rendimiento mediante el acceso cognitivo a bandas adicionales a las ya asignadas. En el contexto del proyecto CORAGE (COgnitive RAdio GEneration), este trabajo aborda la viabilidad y el rendimiento de un sistema basado en el estándar LTE (Long Term Evolution) capaz de operar de forma cognitiva en las bandas correspondientes al dividendo digital y al sistema TETRA (TErrestrial Trunked RAdio). Para ello, un estudio basado en simulación ha sido llevado a cabo con el objetivo de evaluar las prestaciones de dicho sistema cognitivo. Para dicha evaluación, se ha considerado un servicio de transmisión de video a distintos niveles de calidad, dado su alto requerimiento en cuanto a recursos, bajo la premisa de alta carga o congestión. Los resultados obtenidos sobre un despliegue real de LTE en la Comunidad de Murcia demuestran que el sistema cognitivo es capaz de sacar un mayor rendimiento al ancho de banda disponible. Este mayor rendimiento del sistema CORAGE se traduce no sólo en una mayor tasa transmitida, sino también en unas mejores prestaciones extremo a extremo del servicio de transmisión de vídeo.
"ALL YOUR DATA ARE BELONG TO US" OR HOW THE INTERNET GIANTS MAY HAVE A CARD U...TELECOM I+D 2011
While many people are concerned about the amount of data Internet giants like Google or Facebook have acquired over the years, it is still not clear how much of that data are they using or what they are using it for. Also, it seems to be a common belief that companies of the digital age are only present in the digital world, and that only traditional companies may operate on both sides. This paper will discuss the kinds of data Internet giants have access to, and will present some examples on how to use that data for profit, showing how Internet-based companies may jump into traditional business markets, just like traditional companies have moved part of their business to the on-line world.
SATURNO: UN NUEVO CONCEPTO DE DISTRIBUCIÓN DE CONTENIDOS AVANZADOS EN EL HOGARTELECOM I+D 2011
Durante los últimos años, la demanda de redes de distribución de alta capacidad en el hogar ha incrementado de manera significativa. La migración de contenidos a formatos HD, 3D y televisión híbrida, así como la disposición en el mercado de múltiples dispositivos de recepción son algunos de los factores que explican esta necesidad. Asimismo, la mejora de la capacidad de transmisión de las principales redes de acceso demanda una solución en el campo de distribución en el hogar. Este aspecto es clave para la distribución de contenidos vía satélite, ya que conforma hoy por hoy, la mayor oferta de servicios avanzados del mundo. Las redes de distribución actuales proporcionan soluciones punto-multipunto de bajo coste tales como SMATV ("Satellite Master Antenna Television"), utilizando múltiples señales satélite para conformar una única señal en frecuencia intermedia. Sin embargo, ¿Pueden las redes SMATV soportar la demanda actual? En este contexto, el artículo presenta una solución innovadora que permite el acceso de servicios satelitales a diferentes dispositivos tales como tablets, smart-phones, servidores multimedia o displays, sin la necesidad de instalar nueva infraestructura en el hogar. Con este objetivo, se diseña un nuevo prototipo de cabecera/set-top-box compatible con DLNA (Digital Living Network Alliance) y distribución IP en redes de Gigaconectividad. Las prestaciones de la solución son elevadas, obteniéndose velocidades en el rango de 200 Mbps a 1Gbps, cumpliéndose la demanda de ancho de banda de los contenidos. El sistema de distribución es compatible con las tecnologías de acceso desplegadas en el hogar: PLC, WIFI, fibra óptica y coaxial entre otras. Además, se presentan soluciones escalables en función al escenario considerado: instalaciones individuales, colectivas y especiales (hoteles, cruceros, hospitales, etc.). El trabajo presentado en el artículo recoge los resultados más importantes del proyecto SATURNO "SATellite Universal Redistribution NetwOrk", aprobado dentro del Plan Avanza I+D Competitividad 2010.
DVB-NGH, LA NUEVA GENERACIÓN DE TV DIGITAL MÓVILTELECOM I+D 2011
En este artículo se detallan las principales soluciones técnicas del futuro estándar de TV digital móvil DVB-NGH (Digital Video Broadcast - Next Generation Hanheld). DVB-NGH es la evolución móvil del estándar de TDT de segunda generación DVB-T2 (Digital Video Broadcasting - 2nd Generation Terrestrial). El proceso de estandarización de DVB-NGH empezó a principios del año 2010, y su finalización está prevista para finales de 2011. Algunas de las principales características de DVB-NGH son: la utilización de codificación de video escalable SVC (Scalable Video Coding), MIMO (Multiple Input Multiple Output), TFS (Time Frequency Slicing), la inclusión de una componente satelital para posibilitar un despliegue híbrido terrestre-satelital, y la definición de un perfil específicamente diseñado para IP (Internet Protocol) utilizando RoHC (Robust Header Compression). Todas estas soluciones tecnológicas, conjuntamente con las altas prestaciones de DVB-T2, hacen que DVB-NGH sea realmente una tecnología de nueva generación de TV móvil con unas prestaciones nunca vistas por un sistema de radiodifusión multimedia móvil.
Tras el éxito del 3D en el cine y las primeras experiencias de televisión en 3D, aparecen nuevos retos y paradigmas que se deben resolver para su implantación definitiva. En este marco, el proyecto europeo JEDI surgió con el objetivo de estudiar la evolución prevista para la 3DTV y analizar las diferentes alternativas tecnológicas con el objetivo final de desarrollar un sistema "end-to-end" de TV 3D estereoscópica. En este artículo se describen algunos de los resultados obtenidos en el proyecto JEDI, tomando como punto de partida el análisis de las técnicas de codificación avanzadas (SVC y MVC) que darán un valor añadido a la 3D actual, permitiendo tanto la mejora de la calidad de imagen como la transmisión simultánea de distintos servicios (SD, HD y 3D) sobre una misma trama. El objetivo es analizar estas técnicas desde un punto de vista técnico y comercial con el fin de identificar las ventajas e inconvenientes que presentan respecto a la situación actual. Se presenta también un caso práctico en el que se analizan las posibilidades de la codificación SVC y MVC en una plataforma Direct-To-Home (DTH) vía satélite.
MAPEO DE CALIDAD DE SERVICIO ENTRE REDES DIFFSERV Y WIMAXTELECOM I+D 2011
Aun cuando las comunicaciones extremo a extremo tienen lugar utilizando el protocolo IP, en un escenario heterogéneo pueden existir diferentes mecanismos y políticas de calidad de servicio para los distintos dominios involucrados en la comunicación. En el escenario planteado en este trabajo el tráfico de una red TCP/IP va a atravesar un segmento WiMAX para unir dominios cableados. En estos dominios fuera de WiMAX la arquitectura DiffServ se puede identificar como la más adecuada para la provisión de calidad de servicio, principalmente por su simplicidad y su escalabilidad. El segmento WiMAX, ofrece de forma nativa diferenciación de tráfico con sus propios mecanismos. Cuando el tráfico procedente de los dominios externos entra en el segmento WiMAX, se produce un conflicto al no existir una correspondencia uno a uno entre las clases de tráfico DiffServ y las que ofrece WiMAX. En este artículo se va a hacer una revisión de los mecanismos que utilizan DiffServ y WiMAX para aplicar calidad de servicio para posteriormente proponer una solución que permita el envío de tráfico DiffServ sobre redes WiMAX, de manera que la calidad de servicio sea la requerida por el usuario final.
Encryption in Microsoft 365 - ExpertsLive Netherlands 2024Albert Hoitingh
In this session I delve into the encryption technology used in Microsoft 365 and Microsoft Purview. Including the concepts of Customer Key and Double Key Encryption.
Generative AI Deep Dive: Advancing from Proof of Concept to ProductionAggregage
Join Maher Hanafi, VP of Engineering at Betterworks, in this new session where he'll share a practical framework to transform Gen AI prototypes into impactful products! He'll delve into the complexities of data collection and management, model selection and optimization, and ensuring security, scalability, and responsible use.
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
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.
Sudheer Mechineni, Head of Application Frameworks, Standard Chartered Bank
Discover how Standard Chartered Bank harnessed the power of Neo4j to transform complex data access challenges into a dynamic, scalable graph database solution. This keynote will cover their journey from initial adoption to deploying a fully automated, enterprise-grade causal cluster, highlighting key strategies for modelling organisational changes and ensuring robust disaster recovery. Learn how these innovations have not only enhanced Standard Chartered Bank’s data infrastructure but also positioned them as pioneers in the banking sector’s adoption of graph technology.
Communications Mining Series - Zero to Hero - Session 1DianaGray10
This session provides introduction to UiPath Communication Mining, importance and platform overview. You will acquire a good understand of the phases in Communication Mining as we go over the platform with you. Topics covered:
• Communication Mining Overview
• Why is it important?
• How can it help today’s business and the benefits
• Phases in Communication Mining
• Demo on Platform overview
• Q/A
The Art of the Pitch: WordPress Relationships and SalesLaura Byrne
Clients don’t know what they don’t know. What web solutions are right for them? How does WordPress come into the picture? How do you make sure you understand scope and timeline? What do you do if sometime changes?
All these questions and more will be explored as we talk about matching clients’ needs with what your agency offers without pulling teeth or pulling your hair out. Practical tips, and strategies for successful relationship building that leads to closing the deal.
Securing your Kubernetes cluster_ a step-by-step guide to success !KatiaHIMEUR1
Today, after several years of existence, an extremely active community and an ultra-dynamic ecosystem, Kubernetes has established itself as the de facto standard in container orchestration. Thanks to a wide range of managed services, it has never been so easy to set up a ready-to-use Kubernetes cluster.
However, this ease of use means that the subject of security in Kubernetes is often left for later, or even neglected. This exposes companies to significant risks.
In this talk, I'll show you step-by-step how to secure your Kubernetes cluster for greater peace of mind and reliability.
GraphSummit Singapore | The Art of the Possible with Graph - Q2 2024Neo4j
Neha Bajwa, Vice President of Product Marketing, Neo4j
Join us as we explore breakthrough innovations enabled by interconnected data and AI. Discover firsthand how organizations use relationships in data to uncover contextual insights and solve our most pressing challenges – from optimizing supply chains, detecting fraud, and improving customer experiences to accelerating drug discoveries.
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:
GridMate - End to end testing is a critical piece to ensure quality and avoid...ThomasParaiso2
End to end testing is a critical piece to ensure quality and avoid regressions. In this session, we share our journey building an E2E testing pipeline for GridMate components (LWC and Aura) using Cypress, JSForce, FakerJS…
Goodbye Windows 11: Make Way for Nitrux Linux 3.5.0!SOFTTECHHUB
As the digital landscape continually evolves, operating systems play a critical role in shaping user experiences and productivity. The launch of Nitrux Linux 3.5.0 marks a significant milestone, offering a robust alternative to traditional systems such as Windows 11. This article delves into the essence of Nitrux Linux 3.5.0, exploring its unique features, advantages, and how it stands as a compelling choice for both casual users and tech enthusiasts.