At European Microwave Week, NXP announced Airfast third generation LDMOS RF power transistors. Click through and explore how NXP is addressing the explosive growth of mobile traffic with our industry leading RF power transistor performance.
The document discusses the challenges and benefits of 5G cellular technology. It outlines key challenges such as increasing network capacity and data rates to support more smart devices, reducing equipment size and power consumption, and supporting multiple standards from 2G to 5G. The benefits highlighted are high speeds and capacity, faster data transmission, support for interactive multimedia and streaming video, improved reliability, quality and clarity over previous generations. 5G will enable broadcasting of data in gigabits per second and compete with computing platforms. It will support applications beyond mobile broadband like connected cars, Internet of Things, and massive machine type communications.
This document discusses 5G and Ericsson's role in developing 5G technology and standards. It outlines Ericsson's vision for 5G including enabling 1000x more mobile data volumes, lower latency, and new use cases like connected vehicles and smart factories. Ericsson is driving 5G standardization globally and establishing 5G testbeds and trials with partners to develop the technical requirements and demonstrate 5G capabilities.
Lorenzo Mucchi 5g #digit19 Pin Prato 14 -15 marzoMarco Renzi
presentazione dell'intervento sul 5g del professor Lorenzo Mucchi dell'Università di Firenze al panel di #digit19 dal titolo La rivoluzione digitale della Quinta Generazione
At 5G Technology Summit in Shanghai, NXP's Paul Hart, Senior Vice President and General Manager of Radio Frequency, will share the evolution to 5G that builds on 4G and Pre-5G. Click through and explore how 5G works with RF front end solutions and power amplifiers.
This document summarizes key information about 5G networks including:
- 5G will have much higher speeds and capacity than existing networks using technologies like OFDM and millimeter wave frequencies.
- Issues facing 5G include signal obstruction from shorter wavelengths and lack of real-world testing data.
- Major players developing 5G include Nokia, Samsung, Qualcomm, Intel, Huawei, Verizon and AT&T.
- Canada has been conducting 5G trials and is well positioned for national 5G infrastructure by 2020, led by companies like Bell, Rogers and Telus.
- Rural broadband provider Xplornet plans to invest in 5G-ready wireless services across Canada using 3500 MHz spectrum,
Despite COVID-19's drawbacks, the response of mobile operators in the European region is showing swift progress in strengthening telecom networks. 5G investment promises to accelerate economic recovery. Let's have a glimpse of Europe's 2020 mobile connections as the region strives for a comeback.
The 5G is the latest technology which would ultimately revolutionize the era of Big Data and Internet of Things
(IoT). The telecom sector will boom and would create a great opportunity for the new businesses.
Qualcomm's document outlines their vision and strategy for 5G networks and technologies. It discusses how 5G will provide unified connectivity across a wide range of use cases and spectrum types. Qualcomm is developing technologies like massive MIMO and mmWave to help 5G networks meet requirements for high data rates, low latency, high reliability and more. They are driving 5G standardization and aim to leverage their 4G leadership to help lead the world to 5G networks and devices.
The document discusses the challenges and benefits of 5G cellular technology. It outlines key challenges such as increasing network capacity and data rates to support more smart devices, reducing equipment size and power consumption, and supporting multiple standards from 2G to 5G. The benefits highlighted are high speeds and capacity, faster data transmission, support for interactive multimedia and streaming video, improved reliability, quality and clarity over previous generations. 5G will enable broadcasting of data in gigabits per second and compete with computing platforms. It will support applications beyond mobile broadband like connected cars, Internet of Things, and massive machine type communications.
This document discusses 5G and Ericsson's role in developing 5G technology and standards. It outlines Ericsson's vision for 5G including enabling 1000x more mobile data volumes, lower latency, and new use cases like connected vehicles and smart factories. Ericsson is driving 5G standardization globally and establishing 5G testbeds and trials with partners to develop the technical requirements and demonstrate 5G capabilities.
Lorenzo Mucchi 5g #digit19 Pin Prato 14 -15 marzoMarco Renzi
presentazione dell'intervento sul 5g del professor Lorenzo Mucchi dell'Università di Firenze al panel di #digit19 dal titolo La rivoluzione digitale della Quinta Generazione
At 5G Technology Summit in Shanghai, NXP's Paul Hart, Senior Vice President and General Manager of Radio Frequency, will share the evolution to 5G that builds on 4G and Pre-5G. Click through and explore how 5G works with RF front end solutions and power amplifiers.
This document summarizes key information about 5G networks including:
- 5G will have much higher speeds and capacity than existing networks using technologies like OFDM and millimeter wave frequencies.
- Issues facing 5G include signal obstruction from shorter wavelengths and lack of real-world testing data.
- Major players developing 5G include Nokia, Samsung, Qualcomm, Intel, Huawei, Verizon and AT&T.
- Canada has been conducting 5G trials and is well positioned for national 5G infrastructure by 2020, led by companies like Bell, Rogers and Telus.
- Rural broadband provider Xplornet plans to invest in 5G-ready wireless services across Canada using 3500 MHz spectrum,
Despite COVID-19's drawbacks, the response of mobile operators in the European region is showing swift progress in strengthening telecom networks. 5G investment promises to accelerate economic recovery. Let's have a glimpse of Europe's 2020 mobile connections as the region strives for a comeback.
The 5G is the latest technology which would ultimately revolutionize the era of Big Data and Internet of Things
(IoT). The telecom sector will boom and would create a great opportunity for the new businesses.
Qualcomm's document outlines their vision and strategy for 5G networks and technologies. It discusses how 5G will provide unified connectivity across a wide range of use cases and spectrum types. Qualcomm is developing technologies like massive MIMO and mmWave to help 5G networks meet requirements for high data rates, low latency, high reliability and more. They are driving 5G standardization and aim to leverage their 4G leadership to help lead the world to 5G networks and devices.
5G promises ultra-fast internet speeds of up to 1 Gbps, low latency, and the ability to connect nearly everything together. It will be the next major phase in mobile technology beyond 4G. 5G networks will use new spectrum bands and network architectures to deliver speeds 10 times faster than 4G and connect many more devices simultaneously. However, 5G also faces challenges in standardization, high deployment costs, and ensuring old devices are compatible with the new network.
This presentation gives an insight into 5G wireless technology. Kindly use this presentation for reference purpose only. Please cite me if you use this somewhere. Don't forget to give it a like or comment if you found it interesting.
Billions of connected devices and things. Billions of people. 5G will provide connectivity for all of these things and people as well as businesses and industry, bringing benefit to society. Operating machinery in hazardous environments from a remote control will be enabled through near-zero latency communication links that enable real-time video. Billions of video-enabled devices will be able to share bandwidth-hungry content. These are just a few applications that illustrate what 5G will be designed for.
5G technology is the next generation of mobile internet connectivity, providing data rates around 100 times faster than 4G. It has the potential to transform many industries with applications like autonomous vehicles, smart cities, augmented and virtual reality. While 5G promises major advantages with high speeds and capacity, it also faces challenges in fully implementing the new infrastructure and addressing security and privacy concerns.
Dr David Soldani : Leading the disruptions | Zinnov Confluence '16 MunichZinnov
Keynote delivered by David Soldani, Global Head 5G Technology, Nokia
Introduction of the most important use cases, within the three agreed usage scenarios, and spotlights on different regions. Why Nokia is the right choice for carriers and enterprises, and disclose the fundamental enabling technologies towards a new digital revolution. The talk concludes with an overview of global 5G plans and milestones, with special focus on the 3GPP standardization framework.
Learn networking? 5G Technology,Learn c language Important topics ( Easy & Logical, & smart way of learning)
Learn more at blog : --
https://solutionbyexpert.blogspot.com/2020/08/become-expert-secret-of-success-ii.html
#coding
#coding development skill program
#java
1) KT has been paving the road to 5G by developing advanced network technologies starting from the 1980s.
2) KT launched LTE in 2010 and has seen increasing mobile data usage and LTE penetration rates. They are considering whether to further invest in LTE or transition to 5G.
3) KT's 5G network aims to provide data speeds over 20Gbps, latency under 1ms, and support for massive connectivity and new services like VR and IoT by 2019.
This presentation looks at 5G network including the current status in terms of development. Canada continues to be a leader in North America in terms of 5G adoption. The outlook is still about two years before networks start to convert to 5G.
The road to 5G from 4G/LTE via LTE-Advanced Pro systems, moving towards borderless mass market broadband, ensuring the best user experience, deploying capacity for mobile video, enabling new use cases/markets including connected vehicles, IoT, VR, enabling the industrial Internet. A presentation by Alan Hadden, Independent Consultant, Hadden Telecoms Ltd. President of GSA Oct 1998 - Jan 2015.
Ericsson Technology Review: Evolving LTE to fit the 5G future Ericsson
Operators have no reason to be concerned about the future of LTE in a 5G world – its upcoming releases (Rel-14 and Rel-15) are intended to deliver on the most important 5G requirements. They will include enhancements to user data rates and system capacity with FD-MIMO, improved support for unlicensed operations, and latency reduction in both control and user planes. LTE will also be modified to address new use cases such as massive machine type communication, critical communications and intelligent transport systems. Both LTE Rel-14 (scheduled for completion in March 2017) and the strong ambitions for LTE Rel-15 indicate that a smooth transition from LTE to 5G through 5G plug-ins is the best course of action.
Emerging markets are experiencing rapid growth in mobile broadband traffic and will continue to do so over the next few years. Huawei's 5G microwave technology aims to help telecom operators in these markets upgrade their legacy backhaul networks to support increasing 5G traffic with minimum capital and operating expenditures. Key innovations of Huawei's 5G microwave solution include breaking capacity bottlenecks, reusing existing sites to save costs, simplifying engineering, and providing an evolution path to deliver up to 10Gbps of capacity to cell sites. Case studies demonstrate how the technology maximizes the value of existing infrastructure, promotes small business growth, and extends broadband coverage.
Introducing our 5G Platform for the first movers in 5G, the first completely end-to-end solution that combines core and radio solutions in 5G to enable new opportunities and use cases
Radio Technologies for 5G using an Advanced Photonic Infrastructure for Dense...ssk
RAPID5G contributes to the future of mobile communications by developing technologies next generation mobile wireless networks. Rapid aims to exploit advanced photonic techniques to provide disruptive solutions to current issues, especially for dense user scenarios.
Keynote Lauri Oksanen - Future X Network - a Nokia Bell Labs View - Mindtrek ...Mindtrek
- 5G will change the world by enabling 10 years of battery life on devices, 100 Mbps speeds whenever needed, ultra-reliability, supporting 10-100x more devices and 10,000x more traffic, low-cost machine-to-machine communication, over 10 Gbps peak data rates, less than 1 ms radio latency, and connecting everything.
- Network technology has evolved from 1990s technologies like ADSL to future technologies like 5G, which will expand human possibilities.
- The future network environment will be very different from the past, with a focus on human and business needs over technology, distributed architectures over centralized ones, dynamic and infinite sharing over static and limited sharing, and cooperative investment
5G is here, and it’s something that a lot of people are very excited about. Faster download speeds mean you can watch movies streamed in perfect clarity, communicate quickly with people around the world, and efficiently process large batches of information.
Considering that we are constantly being exposed to radiation in all forms, it’s highly unlikely that 5g will cause any significant change. 5G is probably safe. Enjoy those fast downloads!
Contact us if you’d like to learn what we can do for you. Visit Us - https://bit.ly/2yif7wx
#5g, #5gtechnology, #5gnetwork, #verizon5g, #5gtechnologywhatyouneedtoknow, #5gtechnology, #5gtechnologyuse, #whatis5g, #investingin5gtechnology, #5gexplained, #5gspeed, #5gconnections, #wearable #technology, #5gcelltowers, #cuttingedgetechnology, #att5g, #5gvs4g, #5g2019, #5gtesting
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This document discusses the evolution of wireless technologies from 1G to 5G. It provides an overview of the key concepts, architecture, hardware, software and features of 5G. 5G is expected to offer speeds up to 1 Gbps, lower latency, and better reliability than previous generations. It will allow for applications like wearable devices, media independent handover, and pervasive networks. 5G aims to provide a unified global standard for wireless connectivity with high quality of service.
Dr. Wenbing Yao from Huawei Technologies gave a presentation on 5G updates at the INCA Seminar in London on July 12th. The presentation discussed how networks and services need to be ready for 5G deployment, including having the proper spectrum, network infrastructure like small cells, and developing the 5G ecosystem. It also reviewed the progress of 5G standards development and initial trials and deployments by various operators worldwide. Huawei outlined its investments in 5G research and trials conducted with partners to help bring 5G networks and services to reality.
5G aims to enhance mobile broadband capabilities by 2020 to support a connected society with speeds over 5Gbps and latency below 1ms. The document outlines the vision for 5G and enabling technologies being researched, such as mmWave spectrum above 10GHz, massive MIMO, beamforming, advanced modulation schemes, and a cloud-based network architecture. Key research groups around the world are exploring how these technologies can deliver 10-100x increased data rates while improving coverage, capacity, security and energy efficiency.
AN003 RF MEMS System Level Considerations for Optimized Battery LifeIgor Lalicevic
This document discusses how RF MEMS switches can improve battery life in LTE mobile handsets. It begins by explaining that the power amplifier is a major source of power consumption and its efficiency, defined by PAE, affects battery life. Higher insertion losses in the RF front-end lower PAE by requiring more output power. LTE networks typically use high output powers for short bursts, resulting in much shorter battery life compared to 3G. Applying RF MEMS switches can minimize insertion losses and improve PAE, enhancing efficiency and extending battery life for LTE technology.
Techniques and Challenges in Designing Wideband Power Amplifiers Using GaN an...Lisa Bradley
The document summarizes techniques and challenges in designing wideband power amplifiers using GaN and LDMOS transistors. It discusses how GaN has advantages over LDMOS like higher bandwidth, efficiency and power density. It provides comparisons of typical parameters for LDMOS and GaN technologies. The document also discusses wideband PA design techniques, challenges involving thermal management, linearity and ruggedness, and provides examples of wideband GaN and LDMOS PA applications with simulation and measurement results.
5G promises ultra-fast internet speeds of up to 1 Gbps, low latency, and the ability to connect nearly everything together. It will be the next major phase in mobile technology beyond 4G. 5G networks will use new spectrum bands and network architectures to deliver speeds 10 times faster than 4G and connect many more devices simultaneously. However, 5G also faces challenges in standardization, high deployment costs, and ensuring old devices are compatible with the new network.
This presentation gives an insight into 5G wireless technology. Kindly use this presentation for reference purpose only. Please cite me if you use this somewhere. Don't forget to give it a like or comment if you found it interesting.
Billions of connected devices and things. Billions of people. 5G will provide connectivity for all of these things and people as well as businesses and industry, bringing benefit to society. Operating machinery in hazardous environments from a remote control will be enabled through near-zero latency communication links that enable real-time video. Billions of video-enabled devices will be able to share bandwidth-hungry content. These are just a few applications that illustrate what 5G will be designed for.
5G technology is the next generation of mobile internet connectivity, providing data rates around 100 times faster than 4G. It has the potential to transform many industries with applications like autonomous vehicles, smart cities, augmented and virtual reality. While 5G promises major advantages with high speeds and capacity, it also faces challenges in fully implementing the new infrastructure and addressing security and privacy concerns.
Dr David Soldani : Leading the disruptions | Zinnov Confluence '16 MunichZinnov
Keynote delivered by David Soldani, Global Head 5G Technology, Nokia
Introduction of the most important use cases, within the three agreed usage scenarios, and spotlights on different regions. Why Nokia is the right choice for carriers and enterprises, and disclose the fundamental enabling technologies towards a new digital revolution. The talk concludes with an overview of global 5G plans and milestones, with special focus on the 3GPP standardization framework.
Learn networking? 5G Technology,Learn c language Important topics ( Easy & Logical, & smart way of learning)
Learn more at blog : --
https://solutionbyexpert.blogspot.com/2020/08/become-expert-secret-of-success-ii.html
#coding
#coding development skill program
#java
1) KT has been paving the road to 5G by developing advanced network technologies starting from the 1980s.
2) KT launched LTE in 2010 and has seen increasing mobile data usage and LTE penetration rates. They are considering whether to further invest in LTE or transition to 5G.
3) KT's 5G network aims to provide data speeds over 20Gbps, latency under 1ms, and support for massive connectivity and new services like VR and IoT by 2019.
This presentation looks at 5G network including the current status in terms of development. Canada continues to be a leader in North America in terms of 5G adoption. The outlook is still about two years before networks start to convert to 5G.
The road to 5G from 4G/LTE via LTE-Advanced Pro systems, moving towards borderless mass market broadband, ensuring the best user experience, deploying capacity for mobile video, enabling new use cases/markets including connected vehicles, IoT, VR, enabling the industrial Internet. A presentation by Alan Hadden, Independent Consultant, Hadden Telecoms Ltd. President of GSA Oct 1998 - Jan 2015.
Ericsson Technology Review: Evolving LTE to fit the 5G future Ericsson
Operators have no reason to be concerned about the future of LTE in a 5G world – its upcoming releases (Rel-14 and Rel-15) are intended to deliver on the most important 5G requirements. They will include enhancements to user data rates and system capacity with FD-MIMO, improved support for unlicensed operations, and latency reduction in both control and user planes. LTE will also be modified to address new use cases such as massive machine type communication, critical communications and intelligent transport systems. Both LTE Rel-14 (scheduled for completion in March 2017) and the strong ambitions for LTE Rel-15 indicate that a smooth transition from LTE to 5G through 5G plug-ins is the best course of action.
Emerging markets are experiencing rapid growth in mobile broadband traffic and will continue to do so over the next few years. Huawei's 5G microwave technology aims to help telecom operators in these markets upgrade their legacy backhaul networks to support increasing 5G traffic with minimum capital and operating expenditures. Key innovations of Huawei's 5G microwave solution include breaking capacity bottlenecks, reusing existing sites to save costs, simplifying engineering, and providing an evolution path to deliver up to 10Gbps of capacity to cell sites. Case studies demonstrate how the technology maximizes the value of existing infrastructure, promotes small business growth, and extends broadband coverage.
Introducing our 5G Platform for the first movers in 5G, the first completely end-to-end solution that combines core and radio solutions in 5G to enable new opportunities and use cases
Radio Technologies for 5G using an Advanced Photonic Infrastructure for Dense...ssk
RAPID5G contributes to the future of mobile communications by developing technologies next generation mobile wireless networks. Rapid aims to exploit advanced photonic techniques to provide disruptive solutions to current issues, especially for dense user scenarios.
Keynote Lauri Oksanen - Future X Network - a Nokia Bell Labs View - Mindtrek ...Mindtrek
- 5G will change the world by enabling 10 years of battery life on devices, 100 Mbps speeds whenever needed, ultra-reliability, supporting 10-100x more devices and 10,000x more traffic, low-cost machine-to-machine communication, over 10 Gbps peak data rates, less than 1 ms radio latency, and connecting everything.
- Network technology has evolved from 1990s technologies like ADSL to future technologies like 5G, which will expand human possibilities.
- The future network environment will be very different from the past, with a focus on human and business needs over technology, distributed architectures over centralized ones, dynamic and infinite sharing over static and limited sharing, and cooperative investment
5G is here, and it’s something that a lot of people are very excited about. Faster download speeds mean you can watch movies streamed in perfect clarity, communicate quickly with people around the world, and efficiently process large batches of information.
Considering that we are constantly being exposed to radiation in all forms, it’s highly unlikely that 5g will cause any significant change. 5G is probably safe. Enjoy those fast downloads!
Contact us if you’d like to learn what we can do for you. Visit Us - https://bit.ly/2yif7wx
#5g, #5gtechnology, #5gnetwork, #verizon5g, #5gtechnologywhatyouneedtoknow, #5gtechnology, #5gtechnologyuse, #whatis5g, #investingin5gtechnology, #5gexplained, #5gspeed, #5gconnections, #wearable #technology, #5gcelltowers, #cuttingedgetechnology, #att5g, #5gvs4g, #5g2019, #5gtesting
Follow Us On -
Facebook: http://www.facebook.com/CapitalNumbers
Twitter: https://twitter.com/_CNInfotech
Pinterest: http://pinterest.com/capitalnumbers/
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Instagram: https://www.instagram.com/capitalnumbers_com/
This document discusses the evolution of wireless technologies from 1G to 5G. It provides an overview of the key concepts, architecture, hardware, software and features of 5G. 5G is expected to offer speeds up to 1 Gbps, lower latency, and better reliability than previous generations. It will allow for applications like wearable devices, media independent handover, and pervasive networks. 5G aims to provide a unified global standard for wireless connectivity with high quality of service.
Dr. Wenbing Yao from Huawei Technologies gave a presentation on 5G updates at the INCA Seminar in London on July 12th. The presentation discussed how networks and services need to be ready for 5G deployment, including having the proper spectrum, network infrastructure like small cells, and developing the 5G ecosystem. It also reviewed the progress of 5G standards development and initial trials and deployments by various operators worldwide. Huawei outlined its investments in 5G research and trials conducted with partners to help bring 5G networks and services to reality.
5G aims to enhance mobile broadband capabilities by 2020 to support a connected society with speeds over 5Gbps and latency below 1ms. The document outlines the vision for 5G and enabling technologies being researched, such as mmWave spectrum above 10GHz, massive MIMO, beamforming, advanced modulation schemes, and a cloud-based network architecture. Key research groups around the world are exploring how these technologies can deliver 10-100x increased data rates while improving coverage, capacity, security and energy efficiency.
AN003 RF MEMS System Level Considerations for Optimized Battery LifeIgor Lalicevic
This document discusses how RF MEMS switches can improve battery life in LTE mobile handsets. It begins by explaining that the power amplifier is a major source of power consumption and its efficiency, defined by PAE, affects battery life. Higher insertion losses in the RF front-end lower PAE by requiring more output power. LTE networks typically use high output powers for short bursts, resulting in much shorter battery life compared to 3G. Applying RF MEMS switches can minimize insertion losses and improve PAE, enhancing efficiency and extending battery life for LTE technology.
Techniques and Challenges in Designing Wideband Power Amplifiers Using GaN an...Lisa Bradley
The document summarizes techniques and challenges in designing wideband power amplifiers using GaN and LDMOS transistors. It discusses how GaN has advantages over LDMOS like higher bandwidth, efficiency and power density. It provides comparisons of typical parameters for LDMOS and GaN technologies. The document also discusses wideband PA design techniques, challenges involving thermal management, linearity and ruggedness, and provides examples of wideband GaN and LDMOS PA applications with simulation and measurement results.
SlideShare now has a player specifically designed for infographics. Upload your infographics now and see them take off! Need advice on creating infographics? This presentation includes tips for producing stand-out infographics. Read more about the new SlideShare infographics player here: http://wp.me/p24NNG-2ay
This infographic was designed by Column Five: http://columnfivemedia.com/
No need to wonder how the best on SlideShare do it. The Masters of SlideShare provides storytelling, design, customization and promotion tips from 13 experts of the form. Learn what it takes to master this type of content marketing yourself.
This document provides tips to avoid common mistakes in PowerPoint presentation design. It identifies the top 5 mistakes as including putting too much information on slides, not using enough visuals, using poor quality or unreadable visuals, having messy slides with poor spacing and alignment, and not properly preparing and practicing the presentation. The document encourages presenters to use fewer words per slide, high quality images and charts, consistent formatting, and to spend significant time crafting an engaging narrative and rehearsing their presentation. It emphasizes that an attractive design is not as important as being an effective storyteller.
10 Ways to Win at SlideShare SEO & Presentation OptimizationOneupweb
Thank you, SlideShare, for teaching us that PowerPoint presentations don't have to be a total bore. But in order to tap SlideShare's 60 million global users, you must optimize. Here are 10 quick tips to make your next presentation highly engaging, shareable and well worth the effort.
For more content marketing tips: http://www.oneupweb.com/blog/
This document provides tips for getting more engagement from content published on SlideShare. It recommends beginning with a clear content marketing strategy that identifies target audiences. Content should be optimized for SlideShare by using compelling visuals, headlines, and calls to action. Analytics and search engine optimization techniques can help increase views and shares. SlideShare features like lead generation and access settings help maximize results.
Each month, join us as we highlight and discuss hot topics ranging from the future of higher education to wearable technology, best productivity hacks and secrets to hiring top talent. Upload your SlideShares, and share your expertise with the world!
Not sure what to share on SlideShare?
SlideShares that inform, inspire and educate attract the most views. Beyond that, ideas for what you can upload are limitless. We’ve selected a few popular examples to get your creative juices flowing.
How to Make Awesome SlideShares: Tips & TricksSlideShare
Turbocharge your online presence with SlideShare. We provide the best tips and tricks for succeeding on SlideShare. Get ideas for what to upload, tips for designing your deck and more.
SlideShare is a global platform for sharing presentations, infographics, videos and documents. It has over 18 million pieces of professional content uploaded by experts like Eric Schmidt and Guy Kawasaki. The document provides tips for setting up an account on SlideShare, uploading content, optimizing it for searchability, and sharing it on social media to build an audience and reputation as a subject matter expert.
1) 5G will include both an evolution of LTE to enable new 5G use cases in existing spectrum, as well as a new radio access technology called "NX" with no backwards compatibility constraints.
2) NX will be introduced in phases, with Phase 1 focusing on mobile broadband in higher frequency bands assisted by LTE, and Phase 2 achieving full IMT-2020 compliance.
3) Both existing spectrum below 6 GHz and new spectrum above 6 GHz will be used, with tight interworking between LTE and NX networks important for coverage.
The document discusses the economic impact and benefits of 5G technology. It estimates that 5G will boost the U.S. GDP by $500 billion and create 3 million new jobs. Additionally, 5G solutions applied to vehicle traffic and electrical grids could produce $160 billion in benefits and savings for local communities. The major challenges of 5G include developing the necessary hardware and software to enable speeds over 1 Gbps and connecting billions of devices globally with low latency.
DCCN 2016 - Technologies for next generation networksrudndccn
This document summarizes a lecture on technology enablers for next-generation mobile networks. The lecture covered the evolution of wireless communication systems and defined the main goals of 5G networks, including high data rates, low latency, high connection density, and energy efficiency. Key 5G technology enablers discussed included intelligent use of multiple radio access technologies, network densification, millimeter wave communications, massive MIMO, dynamic spectrum sharing, device-to-device communication, and virtualized network architectures. The lecture also described a full-scale 4G testbed at Brno University of Technology used to develop and test new 5G services like proximity-based D2D communication.
5G spectrum and beyond will transform the telecommunications sector through disruptive technologies driven by market demands. 5G will provide integrated broadband services for the future through innovative shifts in infrastructure to meet international 5G standards. Governments and industry are working to define 5G's technical characteristics and address spectrum needs and regulatory challenges to realize 5G's benefits across sectors. Namibia aims to meet 5G standards through regional cooperation and technologies to resolve increasing mobile demands.
How Telecoms contribute to IoT landscape shapingAlicja Folga
This document outlines an agenda for discussing how telecom providers can shape the IoT landscape. The agenda includes examining current IoT and telecom connectivity capabilities, requirements for both licensed and unlicensed connectivity technologies like LTE-M, LoRa, and Sigfox, and how telecoms can position themselves as service providers or enablers. Benchmarking various short-range and long-range wireless technologies is also covered to understand which are best suited to meet technical and commercial IoT device needs.
5 g enabling_tech_tm_perspective_keysight_nov2014_cpqd_workshopCPqD
1. The document discusses enabling technologies for 5G networks, which aim to support exponentially growing demand for wireless data by achieving speeds of 10 Gbps, coverage in crowded areas, 1 msec latency, and connectivity for over 30 billion devices.
2. 5G proposals include using higher mmWave spectrum bands, new physical/MAC layer technologies, full duplex, and fiber and data bus upgrades to support 1000x capacity increases. However, meeting demands for performance, availability, cost efficiency, and energy efficiency will require multiple technical solutions.
3. Setting a 5G agenda involves many players, including governments, companies, universities, and standards bodies. While 2020 is the target date, consensus is needed to avoid fragmentation.
This document discusses the challenges of traditional copper-based enterprise networks and proposes an alternative converged fiber solution called Corning ONE. Traditional networks use copper for local connections, which has limitations in terms of bandwidth, distance, power consumption, and costs of upgrades. They also struggle to support new technologies such as distributed antenna systems (DAS) for cellular networks. The Corning ONE solution uses passive optical networking to replace copper with single-mode fiber for connectivity throughout the network, providing benefits such as higher bandwidth, longer distances, lower power usage, and easier upgrades to support new standards and technologies.
Evolution driven by business demands or technology constraints?
Following our presentation on IoT Summit in Warsaw, we would like to welcome you to more detailed discussion on IoT challenges. We will be pleased to share more on the role of Telecom operators, how to they can help the vertical markets in IoT technologies introduction by IoT Services Enablement / Provisioning.
Next Generation Inter-Data Center NetworkingInfinera
Presented by Chris Liou, Vice President, Network Strategy, at ECOC 2013 in London, UK (ECOC Special Symposia2: Next Generation Data Centres - Paving the Way for the Zettabyte Era
NovoNet Vision and Operators' Perspective for ONAPITU
1) The document discusses China Mobile's future network vision called NovoNet and ONAP's vision and perspective from operators.
2) NovoNet envisions reconstructing network infrastructure, functions, and operations through technologies like NFV, SDN, and network slicing.
3) ONAP aims to be the global automation platform for network, infrastructure, and services across industries through open source components and reducing manual processes in virtualized environments like 5G.
4) The document provides details on NovoNet and ONAP goals to transform networks through virtualization, centralization, programmability, and automation.
6G wireless communication systems are expected to be deployed between 2027-2030. 5G has drawbacks like lower system capacity and data rates. 6G aims to have maximum quality of service with per-user bit rates of 1Tb/s and 1000x more connected devices than 5G through technologies like terahertz communications and optical wireless. 6G will fully support artificial intelligence and new applications like extended reality, brain-computer interfaces, and the Internet of Everything through super-fast, low latency connectivity. Key challenges to enabling 6G's vision include managing high propagation losses at terahertz frequencies and developing new resource management for three-dimensional networking.
5G Is Overhyped - Learn What It Can Really DoWalt Maclay
Learn what 5G cellular will really deliver for the three very different use cases: cell phones, on-premise equipment, and low data rate IoT. Much of what is promoted is much more limited than what has been advertised, for example, coverage areas and speed.
Also, learn what will be different about IoT communication. The future with 5G will be different. Learn what it will really be like. Join us for an engaging talk and Q & A with Walt Maclay, Voler Systems, Electronic Product Design experts in wearable, IoT, medical and consumer products.
5G Is Overhyped - Learn What It Can Really DoWalt Maclay
The promise of 5G
The technology
* Frequency bands
* Speed, distance, and latency of different bands
* 5G for cell phones
* 5G for low latency high reliability
* 5G for the Internet of Things (IoT)
What this means for the future
* Carrier choices will make a big difference
* Where you are will make a big difference
* What does 5G do for IoT?
Pervasive Internet and the Push Towards ConvergenceBrenda Bell
ACGNJ Main Meeting presentation on the evolution of mobile data and Internet availability, with a view towards what 5G will mean for both stationary and mobile data access
2015Mar25 SmartCityExpo Montreal Quebec CanadaCJ Boguszewski
This document summarizes a presentation given by CJ Boguszewski of Silver Spring Networks on smart cities and the Internet of Things. It discusses how Silver Spring Networks has networked over 23 million devices globally and provides a platform for critical infrastructure. Case studies are presented of smart city projects in Miami, Copenhagen, Glasgow, and Paris that have reduced costs and improved services through LED lighting networks and sensors. The presentation argues that a standards-based, secure network is needed to connect the billions of devices that will be part of the IoT and make cities smarter.
To the 5th Generation? The Future of Mobile CommunicationsMarc NGIAMBA
The document summarizes Nigel Jefferies' presentation on the future of mobile communications and 5G. Some key points:
- Jefferies discusses Huawei's position as a leading ICT provider and its R&D centers worldwide.
- The Wireless World Research Forum (WWRF) develops visions for the future of wireless technologies. Its vision is for 7 trillion wireless devices serving 7 billion people by 2020.
- Research directions for 5G include new radio link technologies to increase spectral efficiency by over 2x, small cells and dense heterogeneous networks, and device-to-device communications.
- Technologies like coordinated multi-site MIMO, cognition, and virtual relays could enable the goals of 5G
the file is related to my online seminars over Instagram.
this is first presentation about 5G
5G is the 5th generation mobile network. It is a new global wireless standard after 1G, 2G, 3G, and 4G networks. 5G enables a new kind of network that is designed to connect virtually everyone and everything together including machines, objects, and devices.
#5G
#5GNR
#Massive MIMO
#tactile_internet
Join Us:
inststagram.com/ali.nikfal1985
Koonsys is a network optimization company that launched its iNOP software in 2004. iNOP uses advanced algorithms and optimization techniques to analyze telecom network data and identify opportunities to reduce costs and improve network performance. It provides customized optimization plans and reports for clients. Case studies showed iNOP optimized networks by reducing microwave hops by 5-33%, freeing up tower space, increasing link capacities by 27-262%, and reducing costs per Mbps transferred by 16-51%.
Fiber to the home (FTTH) and fixed wireless networks both provide high-speed internet but have different capabilities. 5G networks will require many small cells connected by fiber due to the short range of millimeter wave frequencies. An ideal future-proofed network would converge FTTH and fixed wireless, providing truly high-speed internet to premises while allowing seamless mobility between networks. A modular, plug-and-play approach can cost-effectively build out such a blended FTTH and fixed wireless network.
The document provides an overview of wireless technologies in the enterprise space, both current and emerging. It discusses common wireless standards like WiFi, Bluetooth, Zigbee, and cellular networks. It explores drivers for future wireless including the Internet of Things (IoT) and how technologies like 5G, millimeter wave, massive MIMO, and public safety networks will impact buildings and infrastructure requirements. The document focuses on considerations for wireless system designers, installers, and those advising on enterprise wireless networks.
Similar to Airfast 3 RF Power Transistors Advance Cellular Infrastructure for Smart Cities (20)
Building a Raspberry Pi Robot with Dot NET 8, Blazor and SignalRPeter Gallagher
In this session delivered at NDC Oslo 2024, I talk about how you can control a 3D printed Robot Arm with a Raspberry Pi, .NET 8, Blazor and SignalR.
I also show how you can use a Unity app on an Meta Quest 3 to control the arm VR too.
You can find the GitHub repo and workshop instructions here;
https://bit.ly/dotnetrobotgithub
8. EXTERNAL USE7
NXP Solutions: Announcing Airfast Third-Generation Products
High
Efficiency
Ultra Wide
Band
Reduced
Solution
Size
Ground breaking LDMOS efficiency – up to 53%
and 4% greater than previous generations
Multi-band solutions – targeting up to 90 MHz full-
signal bandwidth applications
New line of Air cavity plastic packages with Cu based
flanges – space savings up to 30%
Innovations in thermal performance – up to 20%
improvement
Airfast 3
A3T18H450W23S
A3T18H360W23S
A3T21H450W23S
A3T26H200W24S
Thermal
Performance