http://www.ericsson.com/ourportfolio/telecom-operators/3xmulti
Ericsson's 3xMulti approach to radio network evolution to help operators understand how best to manage the complex mix of multiple standards, bands, and layers as efficiently as possible, both individually and as a whole ecosystem.
Gi-Fi is a next generation wireless technology that operates at 60GHz and allows wireless transfer of audio and video data up to 5 gigabits per second. It uses ultra wide band technology which consists of high bit rate, high security, and faster data transmission. Gi-Fi has applications in wireless transfer for household appliances, office appliances, and video information. It is expected that within 5 years, Gi-Fi will be the dominant wireless networking technology and enable fully mobile, low cost, high speed broadband access.
1. The document discusses Ericsson's history in Ethiopia dating back to 1894 and its more recent expansion projects beginning in 2014. It also covers Sweden's development cooperation with Ethiopia since 1946 to promote education, healthcare and economic development.
2. It outlines Ericsson's role over 140 years in enabling communication technologies from copper wire to 5G and artificial intelligence, as the number of connected devices worldwide is expected to grow exponentially.
3. The last section argues that 5G will be crucial for industries and economic growth in Africa, highlighting opportunities in agriculture through real-time monitoring and management across the value chain.
Roen Menezes Regional Director Thuraya IAD Summit 2019Adrian Hall
This document provides information about Thuraya Telecommunications Company and its satellite communication products and services. It summarizes that Thuraya is a leading mobile satellite operator that provides voice, data and other services to over 161 countries via its two satellites. It has a range of satellite phones, hotspots and IoT devices that can work over satellite or cellular networks. Examples of how Thuraya's technology is used include election polling, fisheries tracking, oil/gas operations and more. The document concludes by describing a case study of Thuraya's technology being used for result transmission in Democratic Republic of Congo's 2018 election.
Gi-Fi is a new wireless technology that operates at 60GHz and allows data transfer rates up to 5 gigabits per second, ten times faster than current Wi-Fi speeds. It uses millimeter wave antennas at an unlicensed 60GHz frequency band to achieve high speeds with low power consumption. Gi-Fi has applications for wireless home networks and inter-vehicle communication, transferring large files like video within seconds. The technology is expected to become dominant for wireless networking in the next few years by providing low-cost, high-speed broadband access without cables.
This document provides an introduction to Gi-Fi technology. It discusses how Gi-Fi allows wireless transfer of audio and video data at up to 5 gigabits per second, which is 10 times faster than current WiFi maximum transfer rates within a 10 meter range. The document outlines the architecture of Gi-Fi including its small antenna subscriber station and use of time division duplex. It compares Gi-Fi to WiFi, noting Gi-Fi's higher speed, lower cost, power usage and range. Potential applications and considerations for the technology are also mentioned.
Gi-Fi is a new wireless technology that provides data transfer speeds up to 5 gigabits per second, which is 10 times faster than current Wi-Fi speeds. It uses the 60GHz frequency band and was developed by researchers in Australia. Gi-Fi has several advantages over existing wireless technologies like Bluetooth and Wi-Fi, including higher speeds, lower power consumption, better security due to the 60GHz frequency. It has applications in areas like wireless personal area networks, vehicle communication systems, and high-speed file transfers. Researchers expect Gi-Fi to become the dominant wireless technology for networking within 5 years.
http://www.ericsson.com/ourportfolio/telecom-operators/3xmulti
Ericsson's 3xMulti approach to radio network evolution to help operators understand how best to manage the complex mix of multiple standards, bands, and layers as efficiently as possible, both individually and as a whole ecosystem.
Gi-Fi is a next generation wireless technology that operates at 60GHz and allows wireless transfer of audio and video data up to 5 gigabits per second. It uses ultra wide band technology which consists of high bit rate, high security, and faster data transmission. Gi-Fi has applications in wireless transfer for household appliances, office appliances, and video information. It is expected that within 5 years, Gi-Fi will be the dominant wireless networking technology and enable fully mobile, low cost, high speed broadband access.
1. The document discusses Ericsson's history in Ethiopia dating back to 1894 and its more recent expansion projects beginning in 2014. It also covers Sweden's development cooperation with Ethiopia since 1946 to promote education, healthcare and economic development.
2. It outlines Ericsson's role over 140 years in enabling communication technologies from copper wire to 5G and artificial intelligence, as the number of connected devices worldwide is expected to grow exponentially.
3. The last section argues that 5G will be crucial for industries and economic growth in Africa, highlighting opportunities in agriculture through real-time monitoring and management across the value chain.
Roen Menezes Regional Director Thuraya IAD Summit 2019Adrian Hall
This document provides information about Thuraya Telecommunications Company and its satellite communication products and services. It summarizes that Thuraya is a leading mobile satellite operator that provides voice, data and other services to over 161 countries via its two satellites. It has a range of satellite phones, hotspots and IoT devices that can work over satellite or cellular networks. Examples of how Thuraya's technology is used include election polling, fisheries tracking, oil/gas operations and more. The document concludes by describing a case study of Thuraya's technology being used for result transmission in Democratic Republic of Congo's 2018 election.
Gi-Fi is a new wireless technology that operates at 60GHz and allows data transfer rates up to 5 gigabits per second, ten times faster than current Wi-Fi speeds. It uses millimeter wave antennas at an unlicensed 60GHz frequency band to achieve high speeds with low power consumption. Gi-Fi has applications for wireless home networks and inter-vehicle communication, transferring large files like video within seconds. The technology is expected to become dominant for wireless networking in the next few years by providing low-cost, high-speed broadband access without cables.
This document provides an introduction to Gi-Fi technology. It discusses how Gi-Fi allows wireless transfer of audio and video data at up to 5 gigabits per second, which is 10 times faster than current WiFi maximum transfer rates within a 10 meter range. The document outlines the architecture of Gi-Fi including its small antenna subscriber station and use of time division duplex. It compares Gi-Fi to WiFi, noting Gi-Fi's higher speed, lower cost, power usage and range. Potential applications and considerations for the technology are also mentioned.
Gi-Fi is a new wireless technology that provides data transfer speeds up to 5 gigabits per second, which is 10 times faster than current Wi-Fi speeds. It uses the 60GHz frequency band and was developed by researchers in Australia. Gi-Fi has several advantages over existing wireless technologies like Bluetooth and Wi-Fi, including higher speeds, lower power consumption, better security due to the 60GHz frequency. It has applications in areas like wireless personal area networks, vehicle communication systems, and high-speed file transfers. Researchers expect Gi-Fi to become the dominant wireless technology for networking within 5 years.
Gi-Fi is a wireless technology that provides data transfer rates of over 1 billion bits (1 gigabit) per second. It was developed by Professor Stan Skafidas in Australia to allow high-speed transfer of audio and video wirelessly up to 5 gigabits per second. Gi-Fi uses an ultra wide band architecture with integrated transceiver chips to transmit multiple signals simultaneously across separate frequencies for interference avoidance and faster data transmission rates than existing wireless technologies like Bluetooth and Wi-Fi, while achieving lower power consumption. Potential applications of Gi-Fi include wireless transfer for household appliances, office devices, video broadcasting, and inter-vehicle communication systems.
This document presents information on Gigabit wireless fidelity (Gi-Fi) technology. It discusses how Gi-Fi works using techniques like multiple-input multiple-output and how it offers advantages over previous wireless technologies in terms of higher data transmission speeds, lower power consumption, and smaller chip size. Potential applications of Gi-Fi discussed include wireless home networks, video transmission in sports stadiums, and inter-vehicle communication systems. Safety concerns are addressed by noting that high frequencies like 60GHz are absorbed within the outer layers of skin.
LET'S THINK ABOUT THE PRESENT WIRELESS TECHNOLOGY THAT WE USE TO TRANSFER OUR FILES...ARE WE SATISFIED?? IF YES,IS IT ENOUGH? LET'S STEP INTO THE FUTURE AND LOOK HOW THIS TECHNOLOGY IS GOING TO BENEFIT US
Combain Mobile Positioning - Mobile World Congress 2014Combain Mobile AB
Presents the cell-id and wifi based mobile positioning offer from Combain called CPS - Combain Positioning Service.
Combain provides access to world largest available cell-id and wifi database. The services is today used by Mobile Network Operators, Mobile Handset Makers, M2M Device makers, Chipset Makers, Service Platform providers and Application Providers.
Inmarsat is a leading provider of global mobile satellite communications services. It operates the world's most advanced commercial satellite fleet to provide reliable connectivity worldwide. Inmarsat's strategy is focused on sustained profitable growth through expanding its satellite capacity and services. This includes completing its Global Xpress high-speed broadband network and pursuing new opportunities like European aviation connectivity. Inmarsat is also developing its next-generation satellite constellations to power the growing Internet of Things and provide high-speed services into the 2020s.
Gi-Fi (Gigabit Wireless) is a new wireless technology that can transfer data at up to 5 gigabits per second, which is 10 times faster than current wireless technologies. It uses 60GHz frequency and can transfer large files like HD videos within a 10 meter range. Gi-Fi aims to provide higher data transfer rates than Bluetooth and Wi-Fi at lower power consumption. It uses small antennas and works best with line of sight. Applications include wireless connectivity between devices in homes and offices for applications like streaming HD content, high-speed inter-vehicle communication, and more. Gi-Fi is expected to become the dominant wireless technology for networking within five years.
Get ready for Industrial Internet of thingsSalah Riahi
Until now, Wifi technology was extremely energy greedy and unreliable. Users working on structural health monitoring and condition monitoring were more inclined to deploy proprietary wireless sensor networks offering a better reliability and a low power operation.
Thanks to more than 8 years of experience in sensing technology, our research and development team worked intensively with our customers on WILO® (for Wifi Low Power) technology, a new generation of WIFI sensors (vibration, inclination and shock) which is reliable, ultra-low power and open-standard.
Gi fi Technology (next generation wireless technology)Uday Wankhade
Gi-Fi is a new wireless technology that allows data transfer speeds up to 5 gigabits per second over short ranges of about 10 meters. It operates at 60GHz frequency using CMOS chip technology. Gi-Fi provides significantly faster speeds than existing wireless technologies like Bluetooth and Wi-Fi while using less power. It is well-suited for applications like wireless transfer of high-definition video between devices in homes and offices. The presenter predicted that within five years, Gi-Fi will become the dominant technology for wireless networking due to its high speeds, low power use, and lower equipment costs compared to other technologies.
Gi-Fi technology allows for wireless transfer of audio and video data at up to 5 GB per second, which is 10 times faster than current maximum wireless transfer rates. It operates using a single-chip transceiver at 60 GHz, achieving gigabit speeds within a 10 meter range. Compared to existing technologies like Bluetooth and Wi-Fi, Gi-Fi provides higher data transfer rates at lower power consumption. Its applications include wireless personal area networks, inter-vehicle communication, and high-speed transfer of video information.
This document presents information on Gigabit Fidelity (GI-FI) technology. It discusses the evolution of wireless technologies leading to GI-FI, how GI-FI works using time division duplexing for transmission and reception. GI-FI offers advantages over other technologies like high security, high speed data transfer, lower power consumption and small/cost-effective chips. The document concludes that GI-FI is poised to replace existing technologies but challenges remain around oxygen absorption rates, while development of GI-FI technology continues.
Gi-Fi is a next generation wireless technology that allows for wireless data transfer speeds of up to 5Gbps using a single-chip transceiver operating at 60GHz. It provides high data transfer rates and low power consumption compared to existing technologies like Bluetooth and Wi-Fi. Gi-Fi has applications in connecting household appliances, transferring video and office files, inter-vehicle communication systems, and broadcasting from sports stadiums. It is expected to become the dominant wireless networking technology in the coming years due to advantages of high speed, low power usage, and cost effectiveness.
This document provides an overview of Gi-Fi technology. It begins with an introduction describing Gi-Fi as a wireless transceiver integrated on a single chip that operates at 60GHz and allows data transfer speeds up to 5GB per second. It then reviews relevant literature on Gi-Fi and discusses the history, architecture, working principles, features, applications and future scope of Gi-Fi. Key points are that Gi-Fi was developed in Australia to overcome the low speeds and short ranges of Bluetooth and Wi-Fi, it supports the IEEE 802.15.3c standard, and within 5 years is expected to be the dominant wireless networking technology providing low-cost, high-speed connectivity.
Gi Fi - Fastest Wireless Transfer TechnologyPradeep Rapolu
Gi-Fi is a next generation wireless technology that allows data transfer speeds up to 5 gigabits per second within a 10 meter range. It aims to overcome the slow transfer speeds and high power consumption of existing technologies like Bluetooth and Wi-Fi. Gi-Fi operates using 60GHz frequency and supports the IEEE 802.15.3C standard. It is expected to become the dominant wireless networking technology within 5 years, enabling wirelessly connected homes and offices with fast, low-cost broadband access.
Gi-Fi is a wireless technology that allows data transfer speeds up to 5 gigabits per second within a 10 meter range. It operates at 60GHz frequency, which attenuates signals over distance for improved security and interference immunity compared to existing technologies like Bluetooth and Wi-Fi. Gi-Fi uses a subscriber station connected to multiple access points to transfer data via radio waves using Time Division Duplex and a heterodyne principle. It has advantages like high speeds, security, cost effectiveness and is well-suited for applications like wireless homes, healthcare, and networking due to its small size and ability to support numerous users.
The document discusses Gi-Fi technology, a wireless networking technology that operates in the 60GHz spectrum and is capable of multi-gigabit data transfer speeds. It provides a brief history of Gi-Fi development, outlines currently used wireless technologies, and describes Gi-Fi's potential advantages over Bluetooth and Wi-Fi in terms of speed, power consumption, and security. The document also covers Gi-Fi's architecture, features, applications for wireless homes and enterprises, and expectations for it to become the dominant wireless technology within five years.
Gi-Fi or Gigabit Wireless is a next generation wireless technology that allows data transfer speeds up to 5 gigabits per second within a 10 meter range. It uses 60GHz frequency and has advantages over existing technologies like Bluetooth and Wi-Fi in providing higher speeds, lower power consumption, and operating at higher frequencies. Gi-Fi has applications in wireless transfer of audio/video data for household appliances, office equipment, and inter-vehicle communication. It is expected to become the dominant wireless technology within five years.
Essential infrastructure: A Siklu PresentationCarla Nadin
This presentation explains:
- Traditional connectivity options
- The network dilemma we face today across the UK
- What is mmWave
- Examples of what Siklu is already doing in this space (case studies)
- Siklu automation
This presentation referenced from different sources such as Huawei, Ericsson, Nokia, IEEE, among others was delivered during the IEEE Kenya Symposium 2018 at Riara University. The presentation was to give an update of 5G technology and demystify issues in 5G.
Gi-Fi is a wireless technology that provides data transfer rates of over 1 billion bits (1 gigabit) per second. It was developed by Professor Stan Skafidas in Australia to allow high-speed transfer of audio and video wirelessly up to 5 gigabits per second. Gi-Fi uses an ultra wide band architecture with integrated transceiver chips to transmit multiple signals simultaneously across separate frequencies for interference avoidance and faster data transmission rates than existing wireless technologies like Bluetooth and Wi-Fi, while achieving lower power consumption. Potential applications of Gi-Fi include wireless transfer for household appliances, office devices, video broadcasting, and inter-vehicle communication systems.
This document presents information on Gigabit wireless fidelity (Gi-Fi) technology. It discusses how Gi-Fi works using techniques like multiple-input multiple-output and how it offers advantages over previous wireless technologies in terms of higher data transmission speeds, lower power consumption, and smaller chip size. Potential applications of Gi-Fi discussed include wireless home networks, video transmission in sports stadiums, and inter-vehicle communication systems. Safety concerns are addressed by noting that high frequencies like 60GHz are absorbed within the outer layers of skin.
LET'S THINK ABOUT THE PRESENT WIRELESS TECHNOLOGY THAT WE USE TO TRANSFER OUR FILES...ARE WE SATISFIED?? IF YES,IS IT ENOUGH? LET'S STEP INTO THE FUTURE AND LOOK HOW THIS TECHNOLOGY IS GOING TO BENEFIT US
Combain Mobile Positioning - Mobile World Congress 2014Combain Mobile AB
Presents the cell-id and wifi based mobile positioning offer from Combain called CPS - Combain Positioning Service.
Combain provides access to world largest available cell-id and wifi database. The services is today used by Mobile Network Operators, Mobile Handset Makers, M2M Device makers, Chipset Makers, Service Platform providers and Application Providers.
Inmarsat is a leading provider of global mobile satellite communications services. It operates the world's most advanced commercial satellite fleet to provide reliable connectivity worldwide. Inmarsat's strategy is focused on sustained profitable growth through expanding its satellite capacity and services. This includes completing its Global Xpress high-speed broadband network and pursuing new opportunities like European aviation connectivity. Inmarsat is also developing its next-generation satellite constellations to power the growing Internet of Things and provide high-speed services into the 2020s.
Gi-Fi (Gigabit Wireless) is a new wireless technology that can transfer data at up to 5 gigabits per second, which is 10 times faster than current wireless technologies. It uses 60GHz frequency and can transfer large files like HD videos within a 10 meter range. Gi-Fi aims to provide higher data transfer rates than Bluetooth and Wi-Fi at lower power consumption. It uses small antennas and works best with line of sight. Applications include wireless connectivity between devices in homes and offices for applications like streaming HD content, high-speed inter-vehicle communication, and more. Gi-Fi is expected to become the dominant wireless technology for networking within five years.
Get ready for Industrial Internet of thingsSalah Riahi
Until now, Wifi technology was extremely energy greedy and unreliable. Users working on structural health monitoring and condition monitoring were more inclined to deploy proprietary wireless sensor networks offering a better reliability and a low power operation.
Thanks to more than 8 years of experience in sensing technology, our research and development team worked intensively with our customers on WILO® (for Wifi Low Power) technology, a new generation of WIFI sensors (vibration, inclination and shock) which is reliable, ultra-low power and open-standard.
Gi fi Technology (next generation wireless technology)Uday Wankhade
Gi-Fi is a new wireless technology that allows data transfer speeds up to 5 gigabits per second over short ranges of about 10 meters. It operates at 60GHz frequency using CMOS chip technology. Gi-Fi provides significantly faster speeds than existing wireless technologies like Bluetooth and Wi-Fi while using less power. It is well-suited for applications like wireless transfer of high-definition video between devices in homes and offices. The presenter predicted that within five years, Gi-Fi will become the dominant technology for wireless networking due to its high speeds, low power use, and lower equipment costs compared to other technologies.
Gi-Fi technology allows for wireless transfer of audio and video data at up to 5 GB per second, which is 10 times faster than current maximum wireless transfer rates. It operates using a single-chip transceiver at 60 GHz, achieving gigabit speeds within a 10 meter range. Compared to existing technologies like Bluetooth and Wi-Fi, Gi-Fi provides higher data transfer rates at lower power consumption. Its applications include wireless personal area networks, inter-vehicle communication, and high-speed transfer of video information.
This document presents information on Gigabit Fidelity (GI-FI) technology. It discusses the evolution of wireless technologies leading to GI-FI, how GI-FI works using time division duplexing for transmission and reception. GI-FI offers advantages over other technologies like high security, high speed data transfer, lower power consumption and small/cost-effective chips. The document concludes that GI-FI is poised to replace existing technologies but challenges remain around oxygen absorption rates, while development of GI-FI technology continues.
Gi-Fi is a next generation wireless technology that allows for wireless data transfer speeds of up to 5Gbps using a single-chip transceiver operating at 60GHz. It provides high data transfer rates and low power consumption compared to existing technologies like Bluetooth and Wi-Fi. Gi-Fi has applications in connecting household appliances, transferring video and office files, inter-vehicle communication systems, and broadcasting from sports stadiums. It is expected to become the dominant wireless networking technology in the coming years due to advantages of high speed, low power usage, and cost effectiveness.
This document provides an overview of Gi-Fi technology. It begins with an introduction describing Gi-Fi as a wireless transceiver integrated on a single chip that operates at 60GHz and allows data transfer speeds up to 5GB per second. It then reviews relevant literature on Gi-Fi and discusses the history, architecture, working principles, features, applications and future scope of Gi-Fi. Key points are that Gi-Fi was developed in Australia to overcome the low speeds and short ranges of Bluetooth and Wi-Fi, it supports the IEEE 802.15.3c standard, and within 5 years is expected to be the dominant wireless networking technology providing low-cost, high-speed connectivity.
Gi Fi - Fastest Wireless Transfer TechnologyPradeep Rapolu
Gi-Fi is a next generation wireless technology that allows data transfer speeds up to 5 gigabits per second within a 10 meter range. It aims to overcome the slow transfer speeds and high power consumption of existing technologies like Bluetooth and Wi-Fi. Gi-Fi operates using 60GHz frequency and supports the IEEE 802.15.3C standard. It is expected to become the dominant wireless networking technology within 5 years, enabling wirelessly connected homes and offices with fast, low-cost broadband access.
Gi-Fi is a wireless technology that allows data transfer speeds up to 5 gigabits per second within a 10 meter range. It operates at 60GHz frequency, which attenuates signals over distance for improved security and interference immunity compared to existing technologies like Bluetooth and Wi-Fi. Gi-Fi uses a subscriber station connected to multiple access points to transfer data via radio waves using Time Division Duplex and a heterodyne principle. It has advantages like high speeds, security, cost effectiveness and is well-suited for applications like wireless homes, healthcare, and networking due to its small size and ability to support numerous users.
The document discusses Gi-Fi technology, a wireless networking technology that operates in the 60GHz spectrum and is capable of multi-gigabit data transfer speeds. It provides a brief history of Gi-Fi development, outlines currently used wireless technologies, and describes Gi-Fi's potential advantages over Bluetooth and Wi-Fi in terms of speed, power consumption, and security. The document also covers Gi-Fi's architecture, features, applications for wireless homes and enterprises, and expectations for it to become the dominant wireless technology within five years.
Gi-Fi or Gigabit Wireless is a next generation wireless technology that allows data transfer speeds up to 5 gigabits per second within a 10 meter range. It uses 60GHz frequency and has advantages over existing technologies like Bluetooth and Wi-Fi in providing higher speeds, lower power consumption, and operating at higher frequencies. Gi-Fi has applications in wireless transfer of audio/video data for household appliances, office equipment, and inter-vehicle communication. It is expected to become the dominant wireless technology within five years.
Essential infrastructure: A Siklu PresentationCarla Nadin
This presentation explains:
- Traditional connectivity options
- The network dilemma we face today across the UK
- What is mmWave
- Examples of what Siklu is already doing in this space (case studies)
- Siklu automation
This presentation referenced from different sources such as Huawei, Ericsson, Nokia, IEEE, among others was delivered during the IEEE Kenya Symposium 2018 at Riara University. The presentation was to give an update of 5G technology and demystify issues in 5G.
Microwave backhaul plays an important role in providing a good user experience and overall network performance. The backhaul capacity needed per base station differs substantially, depending on target data rates and population density.
Microwave backhaul technology is able to handle 100 percent of all radio access sites’ capacity needs. This is true for today as well as in 2020, when it will evolve to support multi-gigabit capacities in traditional frequency bands and beyond 10 gigabits in the millimeter wave.
This document summarizes an independent mobile infrastructure operator called Asteria that owns and operates wireless infrastructure. It discusses how 5G requires significant capital investment and increased complexity is pushing telecom operators to rent installations rather than operate them directly. Asteria has a competitive advantage by efficiently managing shared wireless infrastructure sites, which provides multiple revenue streams and lower costs for telecom operators. The company currently has 89 operational sites mostly in rural areas of Belgium and sees an opportunity to expand across Europe by providing high-speed wireless coverage to rural communities.
What is the wize technology of Low Power Wide Area Network (LPWAN) technology?
The development of wireless communication network technology has driven the development of scaled-up networking for thing-connected networks, which is an inherent development need of Low Power Wide Area Network (LPWAN).
Wize definition
Wize technology is a Low Power Wide Area Network (LPWAN) technology derived from the European standard EN-13757 Wireless M-bus. Wize is an IoT standard defined by the Wize Consortium and is mainly oriented to applications such as wireless metering, smart cities, and industrial IoT.
The document summarizes a project by SPIE's Fire and Security business to design and install a new wireless network system for North Lanarkshire Council's public space CCTV infrastructure. The key points are:
1) SPIE partnered with Core Integrated Solutions to install a new IP-based wireless network with five monitoring hubs providing redundancy and almost no downtime for maintenance or upgrades.
2) The new system is owned by the Council rather than relying on an unreliable leased system, and has expanded coverage to 27 residential towers while reducing energy costs.
3) The project was delivered ahead of schedule in six months instead of nine due to challenges, and is expected to return the initial £1.3
El camino hacia la 5G - Isidro Nieto from Ericsson at VI Jornadas Cátedras Te...Ericsson España
Participation of Isidro Nieto, Regional Head of Mobile Broadband for Ericsson in the Mediterranean, during the event VI Jornadas Cátedras Telefónica UPM, Madrid.
The document discusses how wireless carriers can diversify their services and grow their business. It outlines opportunities in several market segments including enterprise customers, public safety, smart cities, and more. The key is providing a complete portfolio of wireless broadband solutions, like 4G/LTE, to meet the needs of different vertical markets and applications. This allows carriers to capitalize on the growing demand for mobile data and new wireless technologies while protecting existing infrastructure investments.
The document summarizes an event hosted by the 5G Innovation Centre (5GIC) at the University of Surrey. It discusses the 5GIC's goals of developing 5G infrastructure to support future connectivity needs. It outlines the event agenda which included presentations on 5G technology, test beds and trials, and an automotive example using network slicing. The 5GIC aims to drive 5G delivery through its research and partnerships to enable a connected society and digital economy.
PDO, an oil and gas company in Oman, needed to connect over 6,000 sites across 45,000 sq km of oilfields to enable advanced drilling and production applications. They chose Redline's Virtual Fiber wireless solution to create a fully wireless network due to its ability to provide high-speed connectivity across the rugged terrain using just 52 base stations. This network allowed PDO to remotely monitor 7,000+ wells, improve production efficiency, reduce drilling time by 35%, and achieve their third highest production year.
Panorama Antennas Sharkee Feature in Critical Comms Magazine May/Jun 2017 Jana Perlet
The Hytera Multi-mode Advanced Radio offers a convergent platform that supports both critical voice and broadband data services on different networks. It provides a unified communication experience with rich applications and high-level security. The radio can seamlessly switch between narrowband networks like DMR and TETRA, as well as broadband networks like LTE. It has a rugged design with touchscreens, cameras, and customization capabilities. The ergonomic design combined with security features allows users to respond quickly and effectively in different situations.
5G is happening now with progress being made on technologies and policies. Key 5G capabilities defined by ITU include increased data rates, reduced latency, and higher connection densities. 5G will support new usage scenarios for enhanced mobile broadband, massive machine type communications, and ultra-reliable low latency communications. The EU has taken steps toward 5G readiness but there are gaps between Western and Eastern Europe. Spectrum policy will be important to support 5G networks and making services affordable. Most EU countries plan to launch 5G in 2020 to meet digital agenda targets.
ABB's expertise in power transmission systems and electrical optimization,grid reliability and blackout prevention offer sustainable solutions to the challenges of today, and tomorrow. From Flexible Alternate Current Transmission systems that enhance the security, capactity and flexibility of power transmission networks to HVDC power superhighways , there are comparatively inexpensive and faster ways to provide more power and control in existing networks.
Small Cell Deployment Stories - How small cells are bringing value to operato...Small Cell Forum
Small cells are being rapidly deployed by operators around the world to extend coverage, add capacity, and provide value added services. Deployment stories show how small cells have been installed at venues like airports and stadiums in as little as a few hours or days to support events. They are also being used indoors by enterprises to improve cellular coverage without disrupting existing IT infrastructure.
This webinar discusses the hot topics in mobility at the moment.
What are the implications of MAC addresses randomisation for enterprise networks?
Wifi 6E vs 5G - which is more relevant to education and research?
Proxim 4G Public safety wireless solutions 2013Raja Gopal
This document discusses Proxim's wireless networking solutions for public safety applications. It summarizes Proxim's 20+ years of experience in the industry with over 250,000 customers and 2 million units deployed. The document then discusses drivers for public safety projects, challenges with establishing wireless broadband networks, and how Proxim's point-to-point and point-to-multipoint solutions can help deliver reliable wireless connectivity, security cameras, and broadband access for applications like video surveillance, traffic control, and first responder communications. Case studies are provided on deployments in locations like Los Angeles County and ports in Rio de Janeiro.
Let's Integrate MuleSoft RPA, COMPOSER, APM with AWS IDP along with Slackshyamraj55
Discover the seamless integration of RPA (Robotic Process Automation), COMPOSER, and APM with AWS IDP enhanced with Slack notifications. Explore how these technologies converge to streamline workflows, optimize performance, and ensure secure access, all while leveraging the power of AWS IDP and real-time communication via Slack notifications.
Observability Concepts EVERY Developer Should Know -- DeveloperWeek Europe.pdfPaige Cruz
Monitoring and observability aren’t traditionally found in software curriculums and many of us cobble this knowledge together from whatever vendor or ecosystem we were first introduced to and whatever is a part of your current company’s observability stack.
While the dev and ops silo continues to crumble….many organizations still relegate monitoring & observability as the purview of ops, infra and SRE teams. This is a mistake - achieving a highly observable system requires collaboration up and down the stack.
I, a former op, would like to extend an invitation to all application developers to join the observability party will share these foundational concepts to build on:
Why You Should Replace Windows 11 with Nitrux Linux 3.5.0 for enhanced perfor...SOFTTECHHUB
The choice of an operating system plays a pivotal role in shaping our computing experience. For decades, Microsoft's Windows has dominated the market, offering a familiar and widely adopted platform for personal and professional use. However, as technological advancements continue to push the boundaries of innovation, alternative operating systems have emerged, challenging the status quo and offering users a fresh perspective on computing.
One such alternative that has garnered significant attention and acclaim is Nitrux Linux 3.5.0, a sleek, powerful, and user-friendly Linux distribution that promises to redefine the way we interact with our devices. With its focus on performance, security, and customization, Nitrux Linux presents a compelling case for those seeking to break free from the constraints of proprietary software and embrace the freedom and flexibility of open-source computing.
Best 20 SEO Techniques To Improve Website Visibility In SERPPixlogix Infotech
Boost your website's visibility with proven SEO techniques! Our latest blog dives into essential strategies to enhance your online presence, increase traffic, and rank higher on search engines. From keyword optimization to quality content creation, learn how to make your site stand out in the crowded digital landscape. Discover actionable tips and expert insights to elevate your SEO game.
UiPath Test Automation using UiPath Test Suite series, part 6DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 6. In this session, we will cover Test Automation with generative AI and Open AI.
UiPath Test Automation with generative AI and Open AI webinar offers an in-depth exploration of leveraging cutting-edge technologies for test automation within the UiPath platform. Attendees will delve into the integration of generative AI, a test automation solution, with Open AI advanced natural language processing capabilities.
Throughout the session, participants will discover how this synergy empowers testers to automate repetitive tasks, enhance testing accuracy, and expedite the software testing life cycle. Topics covered include the seamless integration process, practical use cases, and the benefits of harnessing AI-driven automation for UiPath testing initiatives. By attending this webinar, testers, and automation professionals can gain valuable insights into harnessing the power of AI to optimize their test automation workflows within the UiPath ecosystem, ultimately driving efficiency and quality in software development processes.
What will you get from this session?
1. Insights into integrating generative AI.
2. Understanding how this integration enhances test automation within the UiPath platform
3. Practical demonstrations
4. Exploration of real-world use cases illustrating the benefits of AI-driven test automation for UiPath
Topics covered:
What is generative AI
Test Automation with generative AI and Open AI.
UiPath integration with generative AI
Speaker:
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
Removing Uninteresting Bytes in Software FuzzingAftab Hussain
Imagine a world where software fuzzing, the process of mutating bytes in test seeds to uncover hidden and erroneous program behaviors, becomes faster and more effective. A lot depends on the initial seeds, which can significantly dictate the trajectory of a fuzzing campaign, particularly in terms of how long it takes to uncover interesting behaviour in your code. We introduce DIAR, a technique designed to speedup fuzzing campaigns by pinpointing and eliminating those uninteresting bytes in the seeds. Picture this: instead of wasting valuable resources on meaningless mutations in large, bloated seeds, DIAR removes the unnecessary bytes, streamlining the entire process.
In this work, we equipped AFL, a popular fuzzer, with DIAR and examined two critical Linux libraries -- Libxml's xmllint, a tool for parsing xml documents, and Binutil's readelf, an essential debugging and security analysis command-line tool used to display detailed information about ELF (Executable and Linkable Format). Our preliminary results show that AFL+DIAR does not only discover new paths more quickly but also achieves higher coverage overall. This work thus showcases how starting with lean and optimized seeds can lead to faster, more comprehensive fuzzing campaigns -- and DIAR helps you find such seeds.
- These are slides of the talk given at IEEE International Conference on Software Testing Verification and Validation Workshop, ICSTW 2022.
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My slides at Nordic Testing Days 6.6.2024
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Hajj case study
1. FFor more information, email us at sales@engenius-me.com or call at +97143575599
Copyright EnGenius International Dubai, All Rights Reserved 2016 CASE STUDY
EnGenius Electron Series provides high performance backhaul solution for
surveillance during Hajj Period
EnGenius Electron Series provides High Performance
Backhaul Solution for Surveillance during Hajj Period
Mekkah, Saudi Arabia:
The Hajj is an annual Islamic pilgrimage to Makkah in Saudi Arabia and a mandatory religious
duty for all Muslims. The number of pilgrims arriving each year has increased exponentially in recent
years to reach more than 2.2 million pilgrims from 188 countries in 2015, making it the largest religious
gathering in the world. To house pilgrims during their journey which spans 15 days, more than 100,000
air-conditioned tents are arranged in Mina, a neighborhood in Makkah Province, situated 5 kilometers
to the east of the Holy city covering approximately 20 km².
Making necessary arrangements each year for the growing number of pilgrims is of the utmost
importance to the government of Saudi Arabia in order to allow pilgrims to perform their various rites at
ease. For instance, 800 government officials are posted in Mina to help in directing pilgrims and
avoiding overcrowding situation. These security officials are supported by more than 200 CCTV
cameras that allow them to direct the flow of pilgrims in an effective manner. To support this video
surveillance and to provide government officials with the needed internet connectivity, a massive
internet infrastructure needed to be put in place.
2. FFor more information, email us at sales@engenius-me.com or call at +97143575599
Copyright EnGenius International Dubai, All Rights Reserved 2016 CASE STUDY
The need: Support CCTV surveillance in a condensed and challenging environment:
The system integrator developed three key requirements for the wireless solution. The first
requirement was reliability, in fact, 24/7 CCTV monitoring is critical to operations in order to direct
pilgrims to the right areas and to avoid overcrowding. At the same time, with rising numbers of pilgrims
every year choosing to reside in the camps, the old deployed backhaul links were becoming saturated
as more IP cameras were installed. This meant that the infrastructure would require greater bandwidth
each year.
The second element was pricing where products needed to be cost-efficient so that the system
integrator can keep its pricing competitive. That is especially important as the network infrastructure
would be used only during the pilgrimage period.
Third, the wireless solution chosen would need to be both robust and reliable on the long term. That is
especially true as the external environment of the region is one of the most atrocious in the world with
temperatures reaching 50 degrees with dust storms and sandy winds not uncommon. Ultimately, these
three requirements were considered to be essential in choosing the right solutions in addition to
delivering superior throughput with efficiency.
The Solution: EnGenius Outdoor Electron Series
There were 25 camps in the area with 4 cameras each. Therefore, WCC installed 25
EnStation5 links to provide the infusion of bandwidth needed to support CCTV monitoring
and extend their range. The result was that every 4 cameras were supported by an
EnStation5. The devices were quickly deployed in strategic locations such as at entry points
or above gates to maximize the coverage range and to avoid any congested area. EnStation5
proved very effective with their high gain antennas as it provided the required extended
wireless network; in addition, their independent RF interface allowed them to accommodate
3. FFor more information, email us at sales@engenius-me.com or call at +97143575599
Copyright EnGenius International Dubai, All Rights Reserved 2016 CASE STUDY
ultra high definition video over distances of 700 meters ensuring a very high quality of video
feed.
6 ENH900EXT were installed on the 5 Ghz channel on top of a 12 meter high tower
acting as the main access points to feed the command control center. Since the devices are
UV resistant, IP68-rated waterproof and dustproof device, it was guaranteed that they would
withstand the harsh environment of the region including prolonged exposure to sunlight and
remain operational over a long time. The installation also included 3 additional EnStation5 to
support 3 third-party 16MB cameras.
4. FFor more information, email us at sales@engenius-me.com or call at +97143575599
Copyright EnGenius International Dubai, All Rights Reserved 2016 CASE STUDY
Results:
EnGenius network delivered fast and reliable Wi-Fi coverage to support the pilgrimage’s
network activities including the safety of hundreds of thousands of pilgrims. The Saudi
government has now access to huge amounts of bandwidth to support the rising numbers of
pilgrims and they can supply that bandwidth very cost-effectively.
The fact that EnGenius solution was 40% below the cost of other comparable solutions
offered by some of the world’s largest networking companies proved to be a key advantage. In
addition, the whole network can be quickly viewed, monitored and even reconfigured through
EZ Controller, free Access Point Management software.