Juan Antonio Marco, coordinador del Máster en Dirección Logística y de la cadena de suministro, explica en esta presentación la definición, principales características, componentes, funcionamiento y aplicaciones de la tecnología RFID.
Artificial Intelligence in Telecom – Industry Adoption AnalysisNetscribes
The telecom industry is at the forefront of Artificial intelligence (AI) innovation and adoption. AI offers tremendous opportunities for operators to overcome network management and optimization complexities, traditional hardware dependencies, and to reduce costs. By automating decisions around resource allocation, virtualization, traffic management, and network maintenance, AI can enable more intelligent network planning. In addition, AI will be instrumental in helping operators capitalize on 5G through better planning and network capacity utilization. Given the exploding demand for speedier and more efficient data connectivity, there’s no question that success in the telecom industry will belong to companies that best utilize the power of AI.
This report evaluates the state of AI adoption in the telecom industry, while revealing the companies that are leading the charge. By buying this report, you’ll obtain keen insights into the applications of AI in telecom, investment opportunities, market gaps, and emerging expectations from telecom companies and AI-based solution providers.
To purchase the full report, write to us at info@netscribes.com
Visit www.netscribes.com
Slides of some of the material I discussed at the CodeX, Stanford University working group on computational contracts and Legal Specification Protocols
Cellular networks have facilitated positioning in addition to voice or data communications from the beginning, since 2G, and we’ve since grown to rely on positioning technology to make our lives safer, simpler, more productive, and even fun. Cellular positioning complements other technologies to operate indoors and outdoors, including dense urban environments where tall buildings interfere with satellite positioning. It works whether we’re standing still, walking, or in a moving vehicle. With 5G, cellular positioning breaks new ground to bring robust precise positioning indoors and outdoors, to meet even the most demanding Industry 4.0 needs.
As we look to the future, the Connected Intelligent Edge will bring a new dimension of positional insight to a broad range of devices, improving wireless use cases still under development. We’re already charting the course to 5G Advanced and beyond by working on the evolution of cellular positioning technology to include RF sensing for situational awareness.
Download the deck to learn more.
Juan Antonio Marco, coordinador del Máster en Dirección Logística y de la cadena de suministro, explica en esta presentación la definición, principales características, componentes, funcionamiento y aplicaciones de la tecnología RFID.
Artificial Intelligence in Telecom – Industry Adoption AnalysisNetscribes
The telecom industry is at the forefront of Artificial intelligence (AI) innovation and adoption. AI offers tremendous opportunities for operators to overcome network management and optimization complexities, traditional hardware dependencies, and to reduce costs. By automating decisions around resource allocation, virtualization, traffic management, and network maintenance, AI can enable more intelligent network planning. In addition, AI will be instrumental in helping operators capitalize on 5G through better planning and network capacity utilization. Given the exploding demand for speedier and more efficient data connectivity, there’s no question that success in the telecom industry will belong to companies that best utilize the power of AI.
This report evaluates the state of AI adoption in the telecom industry, while revealing the companies that are leading the charge. By buying this report, you’ll obtain keen insights into the applications of AI in telecom, investment opportunities, market gaps, and emerging expectations from telecom companies and AI-based solution providers.
To purchase the full report, write to us at info@netscribes.com
Visit www.netscribes.com
Slides of some of the material I discussed at the CodeX, Stanford University working group on computational contracts and Legal Specification Protocols
Cellular networks have facilitated positioning in addition to voice or data communications from the beginning, since 2G, and we’ve since grown to rely on positioning technology to make our lives safer, simpler, more productive, and even fun. Cellular positioning complements other technologies to operate indoors and outdoors, including dense urban environments where tall buildings interfere with satellite positioning. It works whether we’re standing still, walking, or in a moving vehicle. With 5G, cellular positioning breaks new ground to bring robust precise positioning indoors and outdoors, to meet even the most demanding Industry 4.0 needs.
As we look to the future, the Connected Intelligent Edge will bring a new dimension of positional insight to a broad range of devices, improving wireless use cases still under development. We’re already charting the course to 5G Advanced and beyond by working on the evolution of cellular positioning technology to include RF sensing for situational awareness.
Download the deck to learn more.
This presentation is focused on Automotive and 5G, the drivers, the current status and the challenges including network slicing and management and orchestration
This presentation provides a full overview of the DAB+ system, from its history to the family of standards, network structure, receivers, automotive and the future
What is 5G NR all about? Check out this presentation to see all the key design components of this new unifying air interface for the next decade and beyond.
LONG HAUL MULTI-GIGABIT MICROWAVE: A NEW APPROACHAviat Networks
As the data capacity demand on mobile phone and other wireless operator networks booms, their telecom backbones, or backhaul infrastructures, have struggled to keep pace. To get high volumes of data from coast to coast, operators have in more recent times relied on fiber optic technology for their voice and data traffic. However, for these long-haul operations, fiber lacks practicality, flexibility, cost effectiveness, security and quick time-to-market. Increasingly, operators are turning to the original long-haul telco solution to meet all these needs: microwave radio.
Neighbor Wi-Fi networks, RF noise sources, misbehaving clients, indoor and outdoor coverage patterns can all impact mobile device performance on wireless networks. Join us in this session to discuss how you can design for RF coverage and capacity in challenging environments, proactively monitor your wireless LAN and put together a process for troubleshooting those toughest connectivity issues.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
Understanding RF Fundamentals and the Radio Design of Wireless NetworksCisco Mobility
This advanced session focuses on deep-dive understanding of the often overlooked Radio Frequency part of designing and deploying a Wireless LAN Network. It discusses 802.11 radio MIMO APs and antennas placements when to use a DAS system antenna patterns. It covers the main environments such as carpeted offices campuses and conference centers, providing feedback based on lessons learned from challenging deployments such as outdoor/stadium/rail deployments and manufacturing areas. Learn More: http://www.cisco.com/go/wireless
This presentation is focused on Automotive and 5G, the drivers, the current status and the challenges including network slicing and management and orchestration
This presentation provides a full overview of the DAB+ system, from its history to the family of standards, network structure, receivers, automotive and the future
What is 5G NR all about? Check out this presentation to see all the key design components of this new unifying air interface for the next decade and beyond.
LONG HAUL MULTI-GIGABIT MICROWAVE: A NEW APPROACHAviat Networks
As the data capacity demand on mobile phone and other wireless operator networks booms, their telecom backbones, or backhaul infrastructures, have struggled to keep pace. To get high volumes of data from coast to coast, operators have in more recent times relied on fiber optic technology for their voice and data traffic. However, for these long-haul operations, fiber lacks practicality, flexibility, cost effectiveness, security and quick time-to-market. Increasingly, operators are turning to the original long-haul telco solution to meet all these needs: microwave radio.
Neighbor Wi-Fi networks, RF noise sources, misbehaving clients, indoor and outdoor coverage patterns can all impact mobile device performance on wireless networks. Join us in this session to discuss how you can design for RF coverage and capacity in challenging environments, proactively monitor your wireless LAN and put together a process for troubleshooting those toughest connectivity issues.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
Understanding RF Fundamentals and the Radio Design of Wireless NetworksCisco Mobility
This advanced session focuses on deep-dive understanding of the often overlooked Radio Frequency part of designing and deploying a Wireless LAN Network. It discusses 802.11 radio MIMO APs and antennas placements when to use a DAS system antenna patterns. It covers the main environments such as carpeted offices campuses and conference centers, providing feedback based on lessons learned from challenging deployments such as outdoor/stadium/rail deployments and manufacturing areas. Learn More: http://www.cisco.com/go/wireless
Informes elaborado por la Secretaría de Estado de Telecomunicaciones para la Sociedad de la Información (SETSI) y la Asociación de empresas de Electrónica, Tecnologías de la Información y Telecomunicaciones (AETIC) sobre RFID, una de las tendencias futuras de Internet.
Libro de proyectos del kit oficial de Arduino en castellano completo - Arduin...Tino Fernández
Se trata del manual completo oficial de Arduino traducido al castellano.
La traducción esta bajo un licencia Creative Commons conservando los mismos derechos de autor que la versión en inglés. No se permite comercializar este manual, solo distribuirlo gratuitamente mencionando a los autores.
Pueden visitar esta página web para ver muchos de estos proyectos en español:
http://www.futureworkss.com/arduino/arduino.html
Para ver uno de estos proyectos en 3D
https://3dwarehouse.sketchup.com/embed.html?entityId=u290b9ba2-0aa0-4d18-8ce3-405daa88758c
RFID: IDentificación por RadioFrecuencia
Fundamentos teóricos y aplicaciones
1. Entender la tecnología
--¿Qué es la RFID?
Definición
*¿RFID? ¿NFC?
*¿No es como los códigos de barras?
*¿Es tecnología reciente?
Propósito
*¿He usado RFID alguna vez?
*¿Cuáles son sus pros? ¿Y sus contras?
*¿Esto lo conocen las empresas?
--¿Cómo funciona?
#Sistema RFID
*Subsistema de procesamiento de datos o Middleware RFID
*Lector de RFID o transceptor
*Etiqueta RFID o transpondedor
#Tipos de etiquetas RFID
*Etiquetas pasivas
*Etiquetas semiactivas o semipasivas
*Etiquetas activas
#Tipos de antenas
*Antenas para baja frecuencia (LF)
*Antenas para alta frecuencia (HF, 13.56 MHz)
*Antenas para frecuencias ultraalta (UHF) y de microondas
#Entornos de etiquetas
--Mundo de la RFID
#Tipos de sistemas RFID
*De frecuencia baja (entre 125 kHz y 134,2 kHz)
*De alta frecuencia (13,56 MHz)
*UHF o de frecuencia ultraelevada (868 MHz a 956 MHz)
*De microondas (2,45 GHz)
#Estandarización
Cuatro áreas fundamentales:
*Protocolo en la interfaz aéreo
*Contenido de los datos
*Certificación
*Aplicaciones
Grupos de especificaciones competidoras:
*ISO
*Auto-ID Centre (desde 2003, EPCglobal)
2. Aplicaciones
-Nintendo 3DS/3DSXL/2DS
-App para smartphone
-Script en Java
-Club Atlético Tigre: “Ticket Pasión”
En resumen:
*RFID es una tecnología inalámbrica de velocidad de comunicación casi instantánea y sin necesidad de emparejamiento.
Derivada de la anterior, NFC es una plataforma abierta pensada para smartphones y otros dispositivos móviles, enfocada a la identificación y validación de equipos/personas.
*RFID es idónea cuando es necesario un intercambio de datos de forma inalámbrica.
*Las aplicaciones con más futuro para NFC son la identificación, la recogida e intercambio de información y, sobre todo, el pago.
El Calentamiento Global, Desafíos De Nuestra épocaRicardo Posada
Presentación realizada en la materia Biocombustibles, como forma de reflexionar sobre los efectos del calentamiento global en nuestros días, desde una mirada cientifica, y global del tema.
1. RFID- R adio F requency ID entification Por: Ricardo Posada Juan C. Montoya Jairo Andrés Suárez
2.
3. ¿Qué es RFID? -Sistema de almacenamiento y recuperación de datos remoto que usa dispositivos denominados etiquetas, transpondedores o tags RFID. -El propósito fundamental de la tecnología RFID es transmitir la identidad de un objeto (similar a un número de serie único) mediante ondas de radio. Radio Frequency IDentification ( Identificación por radiofrecuencia )
4. ¿Qué es RFID? (2) - Una etiqueta RFID es un dispositivo pequeño, similar a una pegatina, que puede ser adherida o incorporada a un producto, animal o persona. -Contienen antenas para permitirles recibir y responder a peticiones por radiofrecuencia desde un emisor-receptor RFID.
5.
6. ¿Cómo funciona? Magnetic / Inductive Coupling Transceiver Tag Reader antenna RFID Tag IC or microprocessor antenna
7. Propagation Coupling IC or microprocessor antenna ¿Cómo funciona? Transceiver Tag Reader antenna RFID Tag
19. Beneficios -Niveles más bajos en el inventario. -Mejora el flujo de caja y la reducción potencial de los gastos generales. -Reducción de roturas de stock. -Capacidad de informar al personal o a los encargados de cuándo se deben reponer las estanterías o cuándo un artículo se ha colocado en el sitio equivocado. -Disminución de la pérdida desconocida.