How will we build the platform for 5G? How will NFV transform to 5G core and what is the status today? Here you can download the Key Note presentation form Ericsson CTO Erik Ekudden, from the SDN NFV World Congress 2017 in the Hague.
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
With the components already introduced to the market, we are making the platform truly end-to-end by launching;
- The market’s first complete 5G radio system
- The first version of an E2E Core network capable of 5G use cases based on network slices
- A 5G core network which can now be connected to 5G NR radio
This enables already today some 5G use cases, for telecom operators to capture growth opportunities for 5G & Internet of Things services for Consumers & Enterprises.
The document discusses the evolution of mobile technologies from 0G to 6G. It describes each generation including key features such as speed increases over time from kilobits per second to terabits per second. 6G is expected to provide complete wireless connectivity with no limitations through technologies like smart antennas and air fiber. Potential use cases for 6G include eHealth, haptic communication, and advanced automation and manufacturing through ultra high speeds and bandwidth. However, 6G technologies are still in development and not yet market-ready.
Qualcomm is developing 5G NR technology to enable a unified 5G air interface that can address diverse spectrum types, services, and deployments. 5G will transform industries and society by connecting billions of devices and delivering new immersive experiences with requirements such as ultra-low latency and ultra-high reliability. Qualcomm is leading innovations for 5G NR such as optimized waveforms, scalable numerology and transmission time interval, efficient spectrum utilization techniques, and support for diverse spectrum bands and deployments.
- 5G will enable increased mobile network capacity and lower costs per bit transferred through 5G NR technology. It will provide a seamless evolution from 4G and initially focus on enhanced mobile broadband applications.
- 5G will enable new revenue streams for operators by powering new use cases and industry applications. However, operator revenues are only forecast to grow modestly without addressing opportunities in other industries through 5G.
- Ericsson's end-to-end 5G platform and solutions can help operators launch 5G networks, expand 4G capacity with 5G-ready equipment, and capture new revenue from industries through network slicing and edge computing capabilities.
5G is the fifth generation wireless technology for digital cellular networks that began wide deployment in 2019. As with previous standards, the covered areas are divided into regions called "cells", serviced by individual antennas.
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.
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
With the components already introduced to the market, we are making the platform truly end-to-end by launching;
- The market’s first complete 5G radio system
- The first version of an E2E Core network capable of 5G use cases based on network slices
- A 5G core network which can now be connected to 5G NR radio
This enables already today some 5G use cases, for telecom operators to capture growth opportunities for 5G & Internet of Things services for Consumers & Enterprises.
The document discusses the evolution of mobile technologies from 0G to 6G. It describes each generation including key features such as speed increases over time from kilobits per second to terabits per second. 6G is expected to provide complete wireless connectivity with no limitations through technologies like smart antennas and air fiber. Potential use cases for 6G include eHealth, haptic communication, and advanced automation and manufacturing through ultra high speeds and bandwidth. However, 6G technologies are still in development and not yet market-ready.
Qualcomm is developing 5G NR technology to enable a unified 5G air interface that can address diverse spectrum types, services, and deployments. 5G will transform industries and society by connecting billions of devices and delivering new immersive experiences with requirements such as ultra-low latency and ultra-high reliability. Qualcomm is leading innovations for 5G NR such as optimized waveforms, scalable numerology and transmission time interval, efficient spectrum utilization techniques, and support for diverse spectrum bands and deployments.
- 5G will enable increased mobile network capacity and lower costs per bit transferred through 5G NR technology. It will provide a seamless evolution from 4G and initially focus on enhanced mobile broadband applications.
- 5G will enable new revenue streams for operators by powering new use cases and industry applications. However, operator revenues are only forecast to grow modestly without addressing opportunities in other industries through 5G.
- Ericsson's end-to-end 5G platform and solutions can help operators launch 5G networks, expand 4G capacity with 5G-ready equipment, and capture new revenue from industries through network slicing and edge computing capabilities.
5G is the fifth generation wireless technology for digital cellular networks that began wide deployment in 2019. As with previous standards, the covered areas are divided into regions called "cells", serviced by individual antennas.
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.
The document is a slide presentation about 5G technology. It provides an introduction to 5G, describing it as the next generation of mobile broadband technology that will have data speeds several hundred times faster than 4G. The presentation covers the evolution of mobile networks from 1G to 5G, comparing their key features. It describes the expected 5G experience of ultra-fast downloading and streaming. Additionally, it discusses 5G architecture, hardware, software, advantages and applications.
5G/NR wireless communication technology overview, architecture and its operating modes SA and NSA. Also an introduction to VoNR and other services overview of 5G network.
The key technologies of 5G namely MIMO and Network slicing are also explained.
The document discusses the key concepts of 5G including:
- 5G aims to provide faster speeds over 10Gbps and serve as a platform for future wireless applications beyond just mobile broadband. It will involve the evolution of LTE and new radio access technologies.
- 5G will utilize a wide range of spectrum from below 1GHz up to 100GHz, with lower frequencies providing wide coverage and higher frequencies providing extreme capacity.
- 5G will see tight interworking between LTE evolution in lower frequencies and new radio access technologies in higher millimeter wave frequencies, with a gradual migration of new technologies into existing spectrum.
3GPP Release 17: Completing the first phase of 5G evolutionQualcomm Research
The document discusses 3GPP Release 17, which brings new system capabilities and expands 5G to new devices, applications, and deployments. Some key points:
- Release 17 completes the first phase of 5G evolution. It expands 5G to new reduced capability devices, applications in new industries, and deployment models like non-terrestrial networks.
- Release 17 enhances technologies like massive MIMO, mmWave expansion, device power savings, coverage, and ultra-reliable low latency communications. It also introduces integrated access and backhaul and simple repeaters to expand 5G mmWave coverage.
- The release further scales 5G NR to support a wide range of device classes from high-end smartphones to
With 5G use cases placing more demanding requirements on the networks, Ericsson is strengthening its end-to-end mobile transport solutions by building on its radio expertise and adding best-in-class transport technologies from Juniper Networks and ECI Telecom.
This document provides an overview of 5G wireless technology presented by Arya M Nair. It discusses the evolution from 1G to 4G technologies and introduces 5G as enabling complete wireless communication with high transmission speeds. The key aspects of 5G that are summarized include how 5G will work using millimeter waves and MIMO technology, the 5G network architecture that allows 4G and 5G to work together, as well as applications and features of 5G such as high connectivity, increased computing power and instantaneous connections enabled by low latency.
A presentation / video looking at 5G spectrum auctions and allocations and how different types of spectrum is required for providing a perfect 5G coverage
All our slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
5G Page: https://www.3g4g.co.uk/5G/
Free Training Videos: https://www.3g4g.co.uk/Training/
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.
1) 5G technology is the next generation of wireless technology that promises higher data rates and expanded multimedia services, with speeds up to 25 Mbps and support for virtual private networks.
2) 5G aims to provide complete wireless communication with almost no limitations, supporting applications like interactive multimedia, voice, streaming video, and the internet anywhere, anytime.
3) Key benefits of 5G include high speeds of up to 1 Gbps for large data broadcasting, multi-media access like high definition TV programs, and more effective and attractive services overall compared to previous generations of wireless technology.
6G Training Course Part 7: 6G Technologies - Introduction3G4G
After our successful launch of '5G for Absolute Beginners' course (http://bit.ly/5Gbegins) in 2020, we decided to create an introductory training course on 6G Mobile Wireless Communications technology. The course is ready and the best way to navigate it is via the Free 6G Training page at: https://bit.ly/6Gintro - this will ensure that you have the latest version of each video and also the most recent version of the 6G technologies videos as and they are added.
In this part we will look at 6G Technologies. As this is a huge topic, we are only going to discuss the technologies at a very high level. Later on we will create more detailed presentations on 6G technologies. In this part we will look at some of the 6G technologies being proposed by other researchers, organisations, vendors and operators and create a summary of the 6G technologies that are being discussed. These technologies each merit their own little presentation that we hope to make in the future
This course is part of #Free6Gtraining initiative (https://www.free6gtraining.com/)
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
6G and Beyond-5G Page: https://www.3g4g.co.uk/6G/
Free Training Videos: https://www.3g4g.co.uk/Training/
Free 6G Training Blog: https://www.free6gtraining.com/
This document provides an overview of 5G technologies and deployment plans in France. It discusses 5G use cases like VR, industrial robots, smart cities etc. It then covers key 5G technologies such as new antennas and network architecture. The document outlines France's 5G spectrum auction and 25 test projects in areas like connected mobility, IoT, telemedicine etc. It also discusses 5G deployment timelines in France and Europe with commercial launches expected in 2020.
This presentation takes a look at the technology roadmap for 5G NR millimeter wave (mmWave). Including features such as integrated access and backhaul (IAB), enhancements in beam management, mobility, coverage, and more. For more information, please visit www.qualcomm.com/mmwave
Ericsson brings new updates to its 5G platform. Introducing 5G network services to support operators from preparation to 5G launch. Ericsson 5G services roadmap spans across three distinct phases, Prepare, Mobilize and Launch. Through our service offerings, Operators can now evolve their 4G network and smoothly start introducing 5G, reaching new heights on their journey to 5G.
The document discusses 5G network slicing and artificial intelligence as a service for big data value. It outlines that 5G systems will enable network slicing to support different industries and use cases with varying latency, bandwidth and capacity needs. By 2025, over 1.2 billion 5G connections are projected globally with 5G covering 40% of the population.
The document discusses Ericsson's solutions for simplifying and accelerating the rollout of 5G networks. It introduces Ericsson Spectrum Sharing to enable 5G deployment using existing spectrum bands. It also highlights the new Street Macro solution combining baseband, fronthaul, and mmWave radio to increase network capacity density in urban areas. Additionally, it presents the new RAN Compute portfolio and enclosures to provide deployment flexibility and reduce total cost of ownership for operators migrating to 5G.
This a small PPT on Introduction to 5G technology. In this PPT 5g introduced in very briefly. This is related to to 2017 5g according to 3GPP standards.
Objective is to include the brief insight on 5G network architecture and standard progress, Accumulated it from different paper/journal, vendor’s white paper and different blog.
Tonex offers a one-day training course on 6G technology to help organizations gain an advantage over competitors. While 6G is 10 years away, planning and preparation take 10 years. The course provides an overview of the 6G vision, expected capabilities like speeds over 1 TB/s, and technologies to achieve its goals. It explains how 6G will build on 5G and the benefits of understanding 6G now to influence its development.
This year we met in Paris, France, October 24-25 for the OSS/BSS User Group, where IT, BSS and OSS teams came together to continue to foster further interaction and idea sharing that remains supported by the valuable breakout sessions you’ve come to expect.
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.
The document is a slide presentation about 5G technology. It provides an introduction to 5G, describing it as the next generation of mobile broadband technology that will have data speeds several hundred times faster than 4G. The presentation covers the evolution of mobile networks from 1G to 5G, comparing their key features. It describes the expected 5G experience of ultra-fast downloading and streaming. Additionally, it discusses 5G architecture, hardware, software, advantages and applications.
5G/NR wireless communication technology overview, architecture and its operating modes SA and NSA. Also an introduction to VoNR and other services overview of 5G network.
The key technologies of 5G namely MIMO and Network slicing are also explained.
The document discusses the key concepts of 5G including:
- 5G aims to provide faster speeds over 10Gbps and serve as a platform for future wireless applications beyond just mobile broadband. It will involve the evolution of LTE and new radio access technologies.
- 5G will utilize a wide range of spectrum from below 1GHz up to 100GHz, with lower frequencies providing wide coverage and higher frequencies providing extreme capacity.
- 5G will see tight interworking between LTE evolution in lower frequencies and new radio access technologies in higher millimeter wave frequencies, with a gradual migration of new technologies into existing spectrum.
3GPP Release 17: Completing the first phase of 5G evolutionQualcomm Research
The document discusses 3GPP Release 17, which brings new system capabilities and expands 5G to new devices, applications, and deployments. Some key points:
- Release 17 completes the first phase of 5G evolution. It expands 5G to new reduced capability devices, applications in new industries, and deployment models like non-terrestrial networks.
- Release 17 enhances technologies like massive MIMO, mmWave expansion, device power savings, coverage, and ultra-reliable low latency communications. It also introduces integrated access and backhaul and simple repeaters to expand 5G mmWave coverage.
- The release further scales 5G NR to support a wide range of device classes from high-end smartphones to
With 5G use cases placing more demanding requirements on the networks, Ericsson is strengthening its end-to-end mobile transport solutions by building on its radio expertise and adding best-in-class transport technologies from Juniper Networks and ECI Telecom.
This document provides an overview of 5G wireless technology presented by Arya M Nair. It discusses the evolution from 1G to 4G technologies and introduces 5G as enabling complete wireless communication with high transmission speeds. The key aspects of 5G that are summarized include how 5G will work using millimeter waves and MIMO technology, the 5G network architecture that allows 4G and 5G to work together, as well as applications and features of 5G such as high connectivity, increased computing power and instantaneous connections enabled by low latency.
A presentation / video looking at 5G spectrum auctions and allocations and how different types of spectrum is required for providing a perfect 5G coverage
All our slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
5G Page: https://www.3g4g.co.uk/5G/
Free Training Videos: https://www.3g4g.co.uk/Training/
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.
1) 5G technology is the next generation of wireless technology that promises higher data rates and expanded multimedia services, with speeds up to 25 Mbps and support for virtual private networks.
2) 5G aims to provide complete wireless communication with almost no limitations, supporting applications like interactive multimedia, voice, streaming video, and the internet anywhere, anytime.
3) Key benefits of 5G include high speeds of up to 1 Gbps for large data broadcasting, multi-media access like high definition TV programs, and more effective and attractive services overall compared to previous generations of wireless technology.
6G Training Course Part 7: 6G Technologies - Introduction3G4G
After our successful launch of '5G for Absolute Beginners' course (http://bit.ly/5Gbegins) in 2020, we decided to create an introductory training course on 6G Mobile Wireless Communications technology. The course is ready and the best way to navigate it is via the Free 6G Training page at: https://bit.ly/6Gintro - this will ensure that you have the latest version of each video and also the most recent version of the 6G technologies videos as and they are added.
In this part we will look at 6G Technologies. As this is a huge topic, we are only going to discuss the technologies at a very high level. Later on we will create more detailed presentations on 6G technologies. In this part we will look at some of the 6G technologies being proposed by other researchers, organisations, vendors and operators and create a summary of the 6G technologies that are being discussed. These technologies each merit their own little presentation that we hope to make in the future
This course is part of #Free6Gtraining initiative (https://www.free6gtraining.com/)
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
6G and Beyond-5G Page: https://www.3g4g.co.uk/6G/
Free Training Videos: https://www.3g4g.co.uk/Training/
Free 6G Training Blog: https://www.free6gtraining.com/
This document provides an overview of 5G technologies and deployment plans in France. It discusses 5G use cases like VR, industrial robots, smart cities etc. It then covers key 5G technologies such as new antennas and network architecture. The document outlines France's 5G spectrum auction and 25 test projects in areas like connected mobility, IoT, telemedicine etc. It also discusses 5G deployment timelines in France and Europe with commercial launches expected in 2020.
This presentation takes a look at the technology roadmap for 5G NR millimeter wave (mmWave). Including features such as integrated access and backhaul (IAB), enhancements in beam management, mobility, coverage, and more. For more information, please visit www.qualcomm.com/mmwave
Ericsson brings new updates to its 5G platform. Introducing 5G network services to support operators from preparation to 5G launch. Ericsson 5G services roadmap spans across three distinct phases, Prepare, Mobilize and Launch. Through our service offerings, Operators can now evolve their 4G network and smoothly start introducing 5G, reaching new heights on their journey to 5G.
The document discusses 5G network slicing and artificial intelligence as a service for big data value. It outlines that 5G systems will enable network slicing to support different industries and use cases with varying latency, bandwidth and capacity needs. By 2025, over 1.2 billion 5G connections are projected globally with 5G covering 40% of the population.
The document discusses Ericsson's solutions for simplifying and accelerating the rollout of 5G networks. It introduces Ericsson Spectrum Sharing to enable 5G deployment using existing spectrum bands. It also highlights the new Street Macro solution combining baseband, fronthaul, and mmWave radio to increase network capacity density in urban areas. Additionally, it presents the new RAN Compute portfolio and enclosures to provide deployment flexibility and reduce total cost of ownership for operators migrating to 5G.
This a small PPT on Introduction to 5G technology. In this PPT 5g introduced in very briefly. This is related to to 2017 5g according to 3GPP standards.
Objective is to include the brief insight on 5G network architecture and standard progress, Accumulated it from different paper/journal, vendor’s white paper and different blog.
Tonex offers a one-day training course on 6G technology to help organizations gain an advantage over competitors. While 6G is 10 years away, planning and preparation take 10 years. The course provides an overview of the 6G vision, expected capabilities like speeds over 1 TB/s, and technologies to achieve its goals. It explains how 6G will build on 5G and the benefits of understanding 6G now to influence its development.
This year we met in Paris, France, October 24-25 for the OSS/BSS User Group, where IT, BSS and OSS teams came together to continue to foster further interaction and idea sharing that remains supported by the valuable breakout sessions you’ve come to expect.
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.
Requiring only half the bitrate of its predecessor, the new standard – HEVC or H.265 – will significantly reduce the need for bandwidth and expensive, limited spectrum. HEVC (H.265) will enable the launch of new video services and in particular ultra HD television (UHDTV).
State-of-the-art video compression techniques – HEVC/H.265 – can reduce the size of raw video by a factor of about 100 without any noticeable reduction in visual quality. With estimates indicating that compressed real-time video accounts for more than 50 percent of current network traffic, and this figure is set to rise to 90 percent within a few years, HEVC/H.265 will be a welcome relief for network operators.
New services, devices and changing viewing patterns are among the factors contributing to the growth in video traffic as people watch more and more traditional TV and video-streaming services on their mobile devices.
Ericsson has been heavily involved in the standardization of HEVC since it began in 2010, and this Ericsson Review article highlights some of the contributions that have led to the compression efficiency offered by HEVC.
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This document summarizes a presentation on intellectual property rights (IPRs) related to LTE technology. It notes that over 4,000 declarations have been made to ETSI regarding LTE patents, representing potential royalty costs. It also outlines that major tech companies hold large patent portfolios related to 4G, with values in the billions, posing a risk to businesses implementing the technology especially in specific markets like femtocells. The presentation examines options like patent pools to help facilitate use of LTE while managing costs.
Seminar report on Millimeter Wave mobile communications for 5g cellularraghubraghu
This document provides an introduction to using millimeter wave technology for 5G cellular networks. It discusses the limitations of current cellular spectrum and the need for higher bandwidth. Millimeter wave spectrum from 30-300GHz is proposed as a solution due to the large amounts of unused spectrum available. However, propagation characteristics and device technologies present challenges at these frequencies that must be addressed. The document outlines some of these challenges and argues that millimeter wave mobile broadband could enable gigabit-per-second data rates at distances up to 1 km in urban mobile environments.
Millimeter Wave mobile communications for 5g cellularraghubraghu
The next generation of wireless mobile communication is here know as 5G cellular which will revolutionize the way which see at wireless communication today !!!
Millimeter wave mobile communication for 5G cellular.Apurv Modi
Introducing the Fifth generation(5G) cellular technology that is use "millimeter wave" technology,as research is going on this approach and by 2020 5G mobile cellular will work on to the millimeter wave with great spectrum bandwidth and very less cost with serving of 100 billion wireless connection across the world
Vision only 5G AnyBee (Anycasting Beyond the Edge)Thierry Lestable
The document discusses the 5G AnyBee project which aims to achieve "AnyTime AnyWhere AnyDevice AnyContent" (ATAWADAC) connectivity by pushing the network edge closer to end users. It does this through leveraging local capabilities and extending heterogeneous network concepts. The project focuses on innovations to support rising mobile video traffic demands and more localized, scalable and reactive networks. Key areas discussed include mobile video trends, LTE broadcast capabilities and trials, integrating digital TV distribution, and timeline aspects of 5G development.
This document provides an overview of 5G wireless technology, including its network architecture, hardware, software, vision, features, challenges and development stages. It compares 1G to 5G technologies and discusses usage patterns. Key concepts discussed include a unified global standard, ubiquitous computing using cognitive radio, and high altitude platform stations. The document outlines the METIS project and stages of 5G development in Europe, South Korea, and by companies such as Samsung, Huawei, and NTT DoCoMo.
This document provides an overview of 5G wireless systems. It discusses the evolution of wireless technologies from 1G to 5G, comparing key aspects like bandwidth and deployment dates. The vision of 5G is described as creating a "real wireless world" without limitations by integrating different networks. Features of 5G include high resolution, large data broadcasting in gigabytes, and remote management. Key concepts involve using IPv6, a unified global standard, and technologies like cognitive radio. Major challenges of 5G implementation are also mentioned.
5G will enable new capabilities for both consumers and enterprises through technological advancements like massive MIMO, beamforming, and network slicing. It promises to deliver 10x greater bandwidth per connection, low latency, extremely high reliability, and expanded coverage. However, achieving these goals will require significant investment from operators to deploy more cells and backhaul. While 5G can initially provide differentiation, its full capabilities may become standardized over time, reducing opportunities for operators to differentiate based on technical features alone. This creates business challenges around justifying the high costs of 5G networks and maintaining profitable operations in a highly competitive market.
AT&T View on LTE to 5G Network Migration Eiko Seidel
AT&T proposes a three step approach to evolving 5G architecture from early deployment to more mature phases:
1) Early 5G deployment using Phase 1 Option 3 architecture.
2) Phase 1 evolution to Option 7 architecture while still supporting Option 3, through software upgrades.
3) Phase 2 evolution to Option 2/4 architecture while still supporting Options 3 and 7, with specifications that allow different architectures to coexist.
Overview 5G Architecture Options from Deutsche TelekomEiko Seidel
At 3GPP RAN#72 5G Architecture discussion took place. This document lists all options that are under discussion.
Source: RP-161266 at RAN#72 Deutsche Telekom
In this paper, we discussed about LTE system throughput calculation for both TDD and FDD system.
3GPP LTE technology support both TDD and FDD multiplexing. The paper describes all the factors which affect the throughput like Bandwidth, Modulation, UE category and mulplexing. It also describes how we get throughput 300Mbps in DL and 75Mbps in UL and what are assumptions taken to calculate the same.
Paper describes the steps and formulae to calculate the throughput for FDD system for TDD Config 1 and Config 2.
The throughput calculations shown in this paper is theoretical and limited by the assumptions taken to calculate for calculations
The document summarizes the evolution of wireless technologies from 1G to 5G. It discusses the key features and limitations of each generation including the increasing data speeds and capabilities. The document compares technologies such as 2G, 3G, 4G and highlights how each new generation improved upon the previous by offering higher speeds and new services like texting, multimedia messaging and video calling. It concludes that 5G will provide wireless connectivity with almost no limitations and will be the next wireless standard after fully deploying in 2020.
Advanced RF SiP for Cellphones 2017 report from Yole Développement Yole Developpement
This document is a sample report from Yole Développement titled "Advanced RF SiP for Cell Phones 2017" that discusses packaging technologies and market forecasts for 5G radio frequency system-in-package solutions for smartphones. The report covers topics such as the methodology used, an executive summary of key findings, market drivers and trends related to 5G packaging, disruptions and opportunities in the supply chain, and technology roadmaps and forecasts through 2022 for RF SiP wafers, units, and revenue. It also profiles major players and discusses emerging packaging platforms that could be used for 5G solutions.
The document lists various mobile network operators around the world and the dates they plan to shut down their 2G and 3G networks. It includes operators in countries like Australia, Canada, Ecuador, Japan, Netherlands, New Zealand, Norway, Singapore, South Korea, Switzerland, Taiwan, Thailand, and the United States. Switch-off dates range from 2008 to 2025 as operators transition customers to newer 4G and 5G technologies.
This presentation & video explains electromagnetic spectrum, frequency, band, bandwidth and how these concepts are used in mobile technology. We also look at antennas for smartphones including 2G, 3G, 4G and 5G
Driving true convergence in metro networks aEricsson
Carrier Ethernet – Driving True Convergence in Metro Networks
Speaker Andrea Spaccapietra, Head of Sales, IP and Broadband, Ericsson
Presentation from the Broadband World Forum, Amsterdam 2012.
For more information on 4th Generation IP for mobility and the cloud: http://www.ericsson.com/yourbusiness/telecom_operators/fixed-broadband-convergence
Ericsson Distributed Cloud goes beyond NFV and Edge Computing. It brings to operators the best of telecom and cloud capabilities, placing the application where it’s needed the most (centrally, distributed or at the edge). It’s an open platform, with end-to-end orchestration, that allows operators to prepare their infrastructure to unlock at least 25% of the business potential of 5G use cases. Visit our page: www.ericsson.com/distributed-cloud
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.
Cisco Connect 2018 Malaysia - Innovation towards SP transformationNetworkCollaborators
- Mobile data traffic is growing significantly and will increase 7 times from 2016 to 2021, driven by factors like increased video consumption and growth of IoT devices. 5G networks will begin deployment and traffic on 5G networks is projected to be 40 times greater than current 4G networks by 2021.
- Telecom operators face challenges from growing bandwidth demand, network investment requirements, and competition from web-scale companies. They need to improve network automation, virtualization, and architecture to gain efficiencies and enable new services.
- Transitioning to a distributed core network architecture with network functions virtualization is recommended to optimize traffic routing for the changing patterns and enable new 5G services through network slicing. This will allow operators to improve
Ericsson Distributed Cloud goes beyond NFV and Edge Computing. It brings to operators the best of telecom and cloud capabilities, placing the application where it’s needed the most (centrally, distributed or at the edge). It’s an open platform, with end-to-end orchestration, that allows operators to prepare their infrastructure to unlock at least 25% of the business potential of 5G use cases. Visit our page: www.ericsson.com/distributed-cloud
5G will enable major improvements in connected sensors, intelligent transport systems, and critical communications by 2024 according to the presentation. It outlines the 3GPP release timeline for 5G technologies and C-V2X evolution. The 5GAA is working on several workstreams including new radio, vehicle-to-network applications, interoperability, and edge computing to realize the benefits of 5G for automotive and transportation.
Cloud evolution and realizing the network enabled cloudEricsson
This document discusses the evolution of cloud services and networks. It notes that mobile and fixed data traffic will grow significantly between 2012-2018. The growth of cloud services is driving changes in networks to improve innovation, speed, and efficiency. The document proposes a "network enabled cloud" with distributed applications across all network nodes and datacenters located near data consumption/generation. It advocates software-defined networking and network function virtualization to provide automated, elastic, and location-agnostic services. Finally, it discusses ensuring performance, security, and telecom capabilities as industries work on open standards like OpenStack.
5G Network Managament for Inteligent Transport Systemslebarka
This presentation discusses managing 5G networks for intelligent transport systems. It covers the need for effective network management as systems grow in complexity. 5G networks can provide a common platform to meet the diverse needs of multiple industries through network slicing. This allows customized quality of service and isolation of services. Automation, semantic technologies, and dynamic planning tools are discussed as ways to manage complexity. Examples of transport use cases like container logistics and city transport are presented. In conclusion, mobile networks are transforming to be more relevant to diverse industries through network slicing and automation.
With the Ericsson 5G Core System we have built an architecture that is highly flexible, modular, and scalable. It supports a much higher degree of programmability and is ready to exist in a cloud-based environment. We help you to quickly react to new challenges and capture any business opportunity that arise.
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.
Ericsson Technology Review: Distributed cloud - A key enabler of automotive a...Ericsson
Emerging use cases in industries where the first phases of the fourth industrial revolution are taking place, such as automotive and manufacturing, are creating new requirements for networks and clouds. At Ericsson, we believe that distributed cloud will be a key technology to support such use cases.
The latest Ericsson Technology Review article explains how distributed cloud technology exploits key features available in both 4G and 5G networks to enable a distributed execution environment for applications that ensures performance, short latency, high reliability and data locality. The flexibility of cloud computing is maintained at the same time that the complexity of the infrastructure is hidden, with application components placed in an optimal location that utilizes the key characteristics of distributed cloud.
Connected Train and Customer Communications: Rail and Digital Industry RoadmapToby Treacher
This document discusses developing a roadmap for connectivity on rail networks and communications with customers. It identifies opportunities to improve connectivity through new technologies, infrastructure sharing, and public-private partnerships. Key recommendations include enabling competitive access to rail infrastructure assets, establishing a neutral host model managed by specialists, and providing government funding and clarifying regulatory obligations to support increased coverage, speeds and capacity on rail routes.
Evolving IP Networks for Superior Performance and Profitable GrowthEricsson
The document discusses how evolving IP networks can enable superior performance and profitable growth. It notes that the number of smartphone subscriptions will reach 4.5 billion by 2018, driving demand for improved network performance. The document outlines challenges like delivering good indoor coverage and the need for scalable backhaul capacity to support performance. It argues that network performance is key to driving user loyalty and double digit revenue growth. The document advocates for efficient connectivity through a common IP platform and personalized connectivity tailored to factors like location.
Multilayer Transport SDN - In the Broader Context of Service Provider SDN Tra...Ericsson
This presentation talks about the role of SDN in driving innovation, agility and efficiency in the transport network. It covers a few use cases where this SDN capability in the IP/Optical domain can be combined with some already well talked about applications of SDN in Virtualization of Network Functions, Service Chaining and Enterprise IT services
ZTE Embracing the 5 g future and dramatic opportunitiesMyles Freedman
This document discusses the evolution of mobile telecommunications networks from 2G to 5G and beyond. It outlines how 5G will enable data rates of over 10 Gbps and connect over 1 million devices per square kilometer. The document then summarizes 5G development progress in several African countries. It explores how 5G will impact digital services and discusses key technologies needed for infrastructure evolution like cloudification, mobile edge computing, and network slicing. The document emphasizes that infrastructure and operations must be adapted now to fully realize the opportunities of 5G.
This document discusses 5G NR based C-V2X (cellular vehicle-to-everything) for autonomous driving. It notes that Rel-14 C-V2X is gaining momentum and support for automotive safety use cases. 5G NR will provide a unified connectivity fabric to expand C-V2X into new industries and use cases to support higher levels of predictability for autonomous driving through ultra-reliable low latency communications and high data rates. The evolution of C-V2X to 5G NR will bring new capabilities to support advanced autonomous driving use cases through high throughput sharing of sensor and map data, as well as intent and trajectory sharing between vehicles.
Reducing RAN infrastructure resources by leveraging 5G RAN Transport Technolo...Michael Gronovius
This presentation describes the 5G transport requirements and discusses how to prepare today's mobile transport network for 5G in the most cost efficient way.
1) Cisco's 5G platform promises significant improvements in network performance including 10x increases in data rates, 20x reductions in latency, and 7.5x increases in cell site capacity.
2) 5G networks will need to support growing mobile traffic and new services enabled by technologies like IoT. They will also need to lower costs and support cloud platforms.
3) Cisco's 5G PowerX platform is a cloud-native, programmable, and automated network that connects everyone and everything from cloud to client through converged core, network slicing, edge computing, and other innovations.
Operator X is partnering with Ericsson to provide new commercial cloud services for B2B customers. One example is providing a secure cloud storage solution developed jointly with Cleversafe that offers greater resiliency and lower costs than alternatives from Amazon or on-premise NAS storage. Ericsson is also exploring other cloud services like cloud-based enterprise mobility management, push-to-talk, and MVNE/MVNO platforms as a service. These new offerings aim to generate new revenue streams for Operator X in the business cloud market.
Ericsson Technology Review: Versatile Video Coding explained – the future of ...Ericsson
Continuous innovation in 5G networks is creating new opportunities for video-enabled services for both consumers and industries, particularly in areas such as the Internet of Things and the automotive sector. These new services are expected to rely on continued video evolution toward 8K resolutions and beyond, and on new strict requirements such as low end-to-end latency for video delivery.
The latest Ericsson Technology Review article explores recent developments in video compression technology and introduces Versatile Video Coding (VVC) – a significant improvement on existing video codecs that we think deserves to be widely deployed in the market. VVC has the potential both to enhance the user experience for existing video services and offer an appropriate performance level for new media services over 5G networks.
BRIDGING THE GAP BETWEEN PHYSICAL AND DIGITAL REALITIES
The key role that connectivity plays in our personal and professional lives has never been more obvious than it is today. Thankfully, despite the sudden, dramatic changes in our behavior earlier this year, networks all around the world have proven to be highly resilient. At Ericsson, we’re committed to ensuring that the network platform continues to improve its ability to meet the full range of societal needs as well as supporting enterprises to stay competitive in the long term. We know that greater agility and speed will be essential.
This issue of our magazine includes several articles that explain Ericsson’s approach to future network development, including my annual technology trends article. The seven trends on this year’s list serve as a critical cornerstone in the development of a common Ericsson vision of what future networks will provide, and what sort of technology evolution will be required to get there.
ERIK EKUDDEN
Senior Vice President, Chief Technology Officer and Head of Group Function Technology
Ericsson Technology Review: Integrated access and backhaul – a new type of wi...Ericsson
Today millimeter wave (mmWave) spectrum is valued mainly because it can be used to achieve high speeds and capacities when combined with spectrum assets below 6GHz. But it can provide other benefits as well. For example, mmWave spectrum makes it possible to use a promising new wireless backhaul solution for 5G New Radio – integrated access and backhaul (IAB) – to densify networks with multi-band radio sites at street level.
This Ericsson Technology Review article explains the IAB concept at a high level, presenting its architecture and key characteristics, as well as examining its advantages and disadvantages compared with other backhaul technologies. It concludes with a presentation of the promising results of several simulations that tested IAB as a backhaul option for street sites in both urban and suburban areas.
Ericsson Technology Review: Critical IoT connectivity: Ideal for time-critica...Ericsson
Critical Internet of Things (IoT) connectivity is an emerging concept in IoT development that enables more efficient and innovative services across a wide range of industries by reliably meeting time-critical communication needs. Mobile network operators (MNOs) are in the perfect position to enable these types of time-critical services due to their ability to leverage advanced 5G networks in a systematic and cost-effective way.
This Ericsson Technology Review article explores the benefits of Critical IoT connectivity in areas such as industrial control, mobility automation, remote control and real-time media. It also provides an overview of key network technologies and architectures. It concludes with several case studies based on two deployment scenarios – wide area and local area – that illustrate how well suited 5G spectrum assets are for Critical IoT use cases.
5G New Radio has already evolved in important ways since the 3GPP standardized Release 15 in late 2018. The significant enhancements in Releases 16 and 17 are certain to play a critical role in expanding both the availability and the applicability of 5G NR in both industry and public services in the near future.
This Ericsson Technology Review article summarizes the most notable new developments in releases 16 and 17, grouped into two categories: enhancements to existing features and features that address new verticals and deployment scenarios. This analysis and our insights about the future beyond Release 17 is an important component of our work to help mobile network operators and other stakeholders better understand and plan for the many new 5G NR opportunities that are on the horizon.
Ericsson Technology Review: The future of cloud computing: Highly distributed...Ericsson
The growing interest in cloud computing scenarios that incorporate both distributed computing capabilities and heterogeneous hardware presents a significant opportunity for network operators. With a vast distributed system (the telco network) already in place, the telecom industry has a significant advantage in the transition toward distributed cloud computing.
This Ericsson Technology Review article explores the future of cloud computing from the perspective of network operators, examining how they can best manage the complexity of future cloud deployments and overcome the technical challenges. Redefining cloud to expose and optimize the use of heterogeneous resources is not straightforward, but we are confident that our use cases and proof points validate our approach and will gain traction both in the telecommunications community and beyond.
Ericsson Technology Review: Optimizing UICC modules for IoT applicationsEricsson
Commonly referred to as SIM cards, the universal integrated circuit cards (UICCs) used in all cellular devices today are in fact complex and powerful minicomputers capable of much more than most Internet of Things (IoT) applications require. Until a simpler and less costly alternative becomes available, action must be taken to ensure that the relatively high price of UICC modules does not hamper IoT growth.
This Ericsson Technology Review article presents two mid-term approaches. The first is to make use of techniques that reduce the complexity of using UICCs in IoT applications, while the second is to use the UICCs’ excess capacity for additional value generation. Those who wish to exploit the potential of the UICCs to better support IoT applications have the opportunity to use them as cryptographic storage, to run higher-layer protocol stacks and/or as supervisory entities, for example.
Mobile data traffic volumes are expected to increase by a factor of four by 2025, and 45 percent of that traffic will be carried by 5G networks. To deliver on customer expectations in this rapidly changing environment, communication service providers must overcome challenges in three key areas: building sufficient capacity, resolving operational inefficiencies through automation and artificial intelligence, and improving service differentiation. This issue of ETR magazine provides insights about how to tackle all three.
Ericsson Technology Review: 5G BSS: Evolving BSS to fit the 5G economyEricsson
The 5G network evolution has opened up an abundance of new business opportunities for communication service providers (CSPs) in verticals such as industrial automation, security, health care and automotive. In order to successfully capitalize on them, CSPs must have business support systems (BSS) that are evolved to manage complex value chains and support new business models. Optimized information models and a high degree of automation are required to handle huge numbers of devices through open interfaces.
This Ericsson Technology Review article explains how 5G-evolved BSS can help CSPs transform themselves from traditional network developers to service enablers for 5G and the Internet of Things, and ultimately to service creators with the ability to collaborate beyond telecoms and establish lucrative digital value systems.
Ericsson Technology Review: 5G migration strategy from EPS to 5G systemEricsson
For many operators, the introduction of the 5G System (5GS) to provide wide-area services in existing Evolved Packet System (EPS) deployments is a necessary step toward creating a full-service, future-proof 5GS in the longer term. The creation of a combined 4G-5G network requires careful planning and a holistic strategy, as the introduction of 5GS has significant impacts across all network domains, including the RAN, packet core, user data and policies, and services, as well as affecting devices and backend systems.
This Ericsson Technology Review article provides an overview of all the aspects that operators need to consider when putting together a robust EPS-to-5GS migration strategy and provides guidance about how they can adapt the transition to address their particular needs per domain.
Ericsson Technology Review: Creating the next-generation edge-cloud ecosystemEricsson
The surge in data volume that will come from the massive number of devices enabled by 5G has made edge computing more important than ever before. Beyond its abilities to reduce network traffic and improve user experience, edge computing will also play a critical role in enabling use cases for ultra-reliable low-latency communication in industrial manufacturing and a variety of other sectors.
This Ericsson Technology Review article explores the topic of how to deliver distributed edge computing solutions that can host different kinds of platforms and applications and provide a high level of flexibility for application developers. Rather than building a new application ecosystem and platform, we strongly recommend reusing industrialized and proven capabilities, utilizing the momentum created with Cloud Native Computing Foundation, and ensuring backward compatibility.
This document summarizes key insights from an Ericsson Technology Review article on facilitating online trust with blockchains. It discusses how blockchains can establish trust without centralized authorities by using distributed consensus protocols. It differentiates between public blockchains like Bitcoin that use proof-of-work and private blockchains used within organizations that employ identities and access management. While blockchains remove the need for trusted third parties, their consensus mechanisms have drawbacks around delay, throughput and costs. Alternative technologies like hashgraphs aim to address these issues to enable distributed trust.
Ericsson Technology Review: Spotlight on the Internet of ThingsEricsson
The Internet of Things (IoT) has emerged as a fundamental cornerstone in the digitalization of both industry and society as a whole. It represents a huge opportunity not only in economic terms, but also from a global challenges perspective – making it easier for governments, non-governmental organizations and the private sector to address pressing food, energy, water and climate related issues.
5G and the IoT are closely intertwined. One of the biggest innovations within 5G is support for the IoT in all its forms, both by addressing mission criticality as well as making it possible to connect low-cost, long-battery-life sensors.
With this in mind, we decided to create a special issue of Ericsson Technology Review solely focused on IoT opportunities and challenges. I hope it provides you with valuable insights about the IoT-related opportunities available to your organization, along with ideas about how we can overcome the challenges ahead.
Ericsson Technology Review - Technology Trends 2019Ericsson
The document discusses six technology trends seen by the author that will shape the future network platform for innovation. It summarizes two key trends:
1. The Internet of Skills and cyber-physical systems (CPSs), which will require the network platform to support high-quality, remote interactions between humans and things with low latency and bandwidth demands.
2. Distributed compute and storage, ubiquitous radio access, security assurance and zero-touch networks, which the author sees as four crucial technology areas that will drive the evolution of the future network platform.
Ericsson Technology Review: Driving transformation in the automotive and road...Ericsson
A variety of automotive and transport services that require cellular connectivity are already in commercial operation today, and many more are yet to come. Among other things, these services will improve road safety and traffic efficiency, saving lives and helping to reduce the emissions that contribute to climate change. At Ericsson, we believe that the best way to address the growing connectivity needs of this industry sector is through a common network solution, as opposed to taking a single-segment silo approach.
The latest Ericsson Technology Review article explains how the ongoing rollout of 5G provides a cost-efficient and feature-rich foundation for a horizontal multiservice network that can meet the connectivity needs of the automotive and transport ecosystem. It also outlines the key challenges and presents potential solutions.
The document discusses how SD-WAN is becoming an orchestration game for service providers. Enterprises are increasingly seeking secure, agile networks to connect offices and mobile workers across multiple clouds. This has led to growing demand for managed SD-WAN services from service providers, who need orchestration to handle complexity and assure quality of service across multiple vendors. Orchestration is key to automating service provisioning and monitoring performance across connectivity, security, mobility and multi-cloud services. The document provides an example of how Ericsson's Dynamic Orchestration solution helped Verizon create new virtual network services.
Ericsson Technology Review: 5G-TSN integration meets networking requirements ...Ericsson
Time-Sensitive Networking (TSN) is becoming the standard Ethernet-based technology for converged networks of Industry 4.0. Understanding the importance and relevance of TSN features, as well as the capabilities that allow 5G to achieve wireless deterministic and time-sensitive communication, is essential to industrial automation in the future.
The latest Ericsson Technology Review article explains how TSN is an enabler of Industry 4.0, and that together with 5G URLLC capabilities, the two key technologies can be combined and integrated to provide deterministic connectivity end to end. It also discusses TSN standards and the value of the TSN toolbox for next generation industrial automation networks.
Ericsson Technology Review: Meeting 5G latency requirements with inactive stateEricsson
Low latency communication and minimal battery consumption are key requirements of many 5G and IoT use cases, including smart transport and critical control of remote devices. Thanks to Ericsson’s 4G/5G research activities and lessons learned from legacy networks, we have identified solutions that address both of these requirements by reducing the amount of signaling required during state transitions, and shared our discoveries with the 3GPP.
This Ericsson Technology Review article explains the why and how behind the new Radio Resource Control (RRC) state model in the standalone version of the 5G New Radio standard, which features a new, Ericsson-developed state called inactive. On top of overcoming latency and battery consumption challenges, the new state also increases overall system capacity by decreasing the processing effort in the network.
Ericsson Technology Review: Cloud-native application design in the telecom do...Ericsson
Cloud-native application design is set to become standard practice in the telecom industry in the near future due to the major efficiency gains it can provide, particularly in terms of speeding up software upgrades and releases. At Ericsson, we have been actively exploring the potential of cloud-native computing in the telecom industry since we joined the Cloud Native Computing Foundation (CNCF) a few years ago.
This Ericsson Technology Review article explains the opportunities that CNCF technology has enabled, as well as unveiling key aspects of our application development framework, which is designed to help navigate the transition to a cloud-native approach. It also discusses the challenges that the large-scale reuse of open-source technology can raise, along with key strategies for how to mitigate them.
Ericsson Technology Review: Service exposure: a critical capability in a 5G w...Ericsson
To meet the requirements of use cases in areas such as the Internet of Things, AR/VR, Industry 4.0 and the automotive sector, operators need to be able to provide computing resources across the whole telco domain – all the way to the edge of the mobile network. Service exposure and APIs will play a key role in creating solutions that are both effective and cost efficient.
The latest Ericsson Technology Review article explores recent advances in the service exposure area that have resulted from the move toward 5G and the adoption of cloud-native principles, as well as the combination of Service-based Architecture, microservices and container technologies. It includes examples that illustrate how service exposure can be deployed in a multitude of locations, each with a different set of requirements that drive modularity and configurability needs.
5th LF Energy Power Grid Model Meet-up SlidesDanBrown980551
5th Power Grid Model Meet-up
It is with great pleasure that we extend to you an invitation to the 5th Power Grid Model Meet-up, scheduled for 6th June 2024. This event will adopt a hybrid format, allowing participants to join us either through an online Mircosoft Teams session or in person at TU/e located at Den Dolech 2, Eindhoven, Netherlands. The meet-up will be hosted by Eindhoven University of Technology (TU/e), a research university specializing in engineering science & technology.
Power Grid Model
The global energy transition is placing new and unprecedented demands on Distribution System Operators (DSOs). Alongside upgrades to grid capacity, processes such as digitization, capacity optimization, and congestion management are becoming vital for delivering reliable services.
Power Grid Model is an open source project from Linux Foundation Energy and provides a calculation engine that is increasingly essential for DSOs. It offers a standards-based foundation enabling real-time power systems analysis, simulations of electrical power grids, and sophisticated what-if analysis. In addition, it enables in-depth studies and analysis of the electrical power grid’s behavior and performance. This comprehensive model incorporates essential factors such as power generation capacity, electrical losses, voltage levels, power flows, and system stability.
Power Grid Model is currently being applied in a wide variety of use cases, including grid planning, expansion, reliability, and congestion studies. It can also help in analyzing the impact of renewable energy integration, assessing the effects of disturbances or faults, and developing strategies for grid control and optimization.
What to expect
For the upcoming meetup we are organizing, we have an exciting lineup of activities planned:
-Insightful presentations covering two practical applications of the Power Grid Model.
-An update on the latest advancements in Power Grid -Model technology during the first and second quarters of 2024.
-An interactive brainstorming session to discuss and propose new feature requests.
-An opportunity to connect with fellow Power Grid Model enthusiasts and users.
In the rapidly evolving landscape of technologies, XML continues to play a vital role in structuring, storing, and transporting data across diverse systems. The recent advancements in artificial intelligence (AI) present new methodologies for enhancing XML development workflows, introducing efficiency, automation, and intelligent capabilities. This presentation will outline the scope and perspective of utilizing AI in XML development. The potential benefits and the possible pitfalls will be highlighted, providing a balanced view of the subject.
We will explore the capabilities of AI in understanding XML markup languages and autonomously creating structured XML content. Additionally, we will examine the capacity of AI to enrich plain text with appropriate XML markup. Practical examples and methodological guidelines will be provided to elucidate how AI can be effectively prompted to interpret and generate accurate XML markup.
Further emphasis will be placed on the role of AI in developing XSLT, or schemas such as XSD and Schematron. We will address the techniques and strategies adopted to create prompts for generating code, explaining code, or refactoring the code, and the results achieved.
The discussion will extend to how AI can be used to transform XML content. In particular, the focus will be on the use of AI XPath extension functions in XSLT, Schematron, Schematron Quick Fixes, or for XML content refactoring.
The presentation aims to deliver a comprehensive overview of AI usage in XML development, providing attendees with the necessary knowledge to make informed decisions. Whether you’re at the early stages of adopting AI or considering integrating it in advanced XML development, this presentation will cover all levels of expertise.
By highlighting the potential advantages and challenges of integrating AI with XML development tools and languages, the presentation seeks to inspire thoughtful conversation around the future of XML development. We’ll not only delve into the technical aspects of AI-powered XML development but also discuss practical implications and possible future directions.
How to Interpret Trends in the Kalyan Rajdhani Mix Chart.pdfChart Kalyan
A Mix Chart displays historical data of numbers in a graphical or tabular form. The Kalyan Rajdhani Mix Chart specifically shows the results of a sequence of numbers over different periods.
Ivanti’s Patch Tuesday breakdown goes beyond patching your applications and brings you the intelligence and guidance needed to prioritize where to focus your attention first. Catch early analysis on our Ivanti blog, then join industry expert Chris Goettl for the Patch Tuesday Webinar Event. There we’ll do a deep dive into each of the bulletins and give guidance on the risks associated with the newly-identified vulnerabilities.
Ocean lotus Threat actors project by John Sitima 2024 (1).pptxSitimaJohn
Ocean Lotus cyber threat actors represent a sophisticated, persistent, and politically motivated group that poses a significant risk to organizations and individuals in the Southeast Asian region. Their continuous evolution and adaptability underscore the need for robust cybersecurity measures and international cooperation to identify and mitigate the threats posed by such advanced persistent threat groups.
Building Production Ready Search Pipelines with Spark and MilvusZilliz
Spark is the widely used ETL tool for processing, indexing and ingesting data to serving stack for search. Milvus is the production-ready open-source vector database. In this talk we will show how to use Spark to process unstructured data to extract vector representations, and push the vectors to Milvus vector database for search serving.
Introduction of Cybersecurity with OSS at Code Europe 2024Hiroshi SHIBATA
I develop the Ruby programming language, RubyGems, and Bundler, which are package managers for Ruby. Today, I will introduce how to enhance the security of your application using open-source software (OSS) examples from Ruby and RubyGems.
The first topic is CVE (Common Vulnerabilities and Exposures). I have published CVEs many times. But what exactly is a CVE? I'll provide a basic understanding of CVEs and explain how to detect and handle vulnerabilities in OSS.
Next, let's discuss package managers. Package managers play a critical role in the OSS ecosystem. I'll explain how to manage library dependencies in your application.
I'll share insights into how the Ruby and RubyGems core team works to keep our ecosystem safe. By the end of this talk, you'll have a better understanding of how to safeguard your code.
Taking AI to the Next Level in Manufacturing.pdfssuserfac0301
Read Taking AI to the Next Level in Manufacturing to gain insights on AI adoption in the manufacturing industry, such as:
1. How quickly AI is being implemented in manufacturing.
2. Which barriers stand in the way of AI adoption.
3. How data quality and governance form the backbone of AI.
4. Organizational processes and structures that may inhibit effective AI adoption.
6. Ideas and approaches to help build your organization's AI strategy.
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.
Skybuffer AI: Advanced Conversational and Generative AI Solution on SAP Busin...Tatiana Kojar
Skybuffer AI, built on the robust SAP Business Technology Platform (SAP BTP), is the latest and most advanced version of our AI development, reaffirming our commitment to delivering top-tier AI solutions. Skybuffer AI harnesses all the innovative capabilities of the SAP BTP in the AI domain, from Conversational AI to cutting-edge Generative AI and Retrieval-Augmented Generation (RAG). It also helps SAP customers safeguard their investments into SAP Conversational AI and ensure a seamless, one-click transition to SAP Business AI.
With Skybuffer AI, various AI models can be integrated into a single communication channel such as Microsoft Teams. This integration empowers business users with insights drawn from SAP backend systems, enterprise documents, and the expansive knowledge of Generative AI. And the best part of it is that it is all managed through our intuitive no-code Action Server interface, requiring no extensive coding knowledge and making the advanced AI accessible to more users.
HCL Notes and Domino License Cost Reduction in the World of DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-and-domino-license-cost-reduction-in-the-world-of-dlau/
The introduction of DLAU and the CCB & CCX licensing model caused quite a stir in the HCL community. As a Notes and Domino customer, you may have faced challenges with unexpected user counts and license costs. You probably have questions on how this new licensing approach works and how to benefit from it. Most importantly, you likely have budget constraints and want to save money where possible. Don’t worry, we can help with all of this!
We’ll show you how to fix common misconfigurations that cause higher-than-expected user counts, and how to identify accounts which you can deactivate to save money. There are also frequent patterns that can cause unnecessary cost, like using a person document instead of a mail-in for shared mailboxes. We’ll provide examples and solutions for those as well. And naturally we’ll explain the new licensing model.
Join HCL Ambassador Marc Thomas in this webinar with a special guest appearance from Franz Walder. It will give you the tools and know-how to stay on top of what is going on with Domino licensing. You will be able lower your cost through an optimized configuration and keep it low going forward.
These topics will be covered
- Reducing license cost by finding and fixing misconfigurations and superfluous accounts
- How do CCB and CCX licenses really work?
- Understanding the DLAU tool and how to best utilize it
- Tips for common problem areas, like team mailboxes, functional/test users, etc
- Practical examples and best practices to implement right away
Your One-Stop Shop for Python Success: Top 10 US Python Development Providersakankshawande
Simplify your search for a reliable Python development partner! This list presents the top 10 trusted US providers offering comprehensive Python development services, ensuring your project's success from conception to completion.
TrustArc Webinar - 2024 Global Privacy SurveyTrustArc
How does your privacy program stack up against your peers? What challenges are privacy teams tackling and prioritizing in 2024?
In the fifth annual Global Privacy Benchmarks Survey, we asked over 1,800 global privacy professionals and business executives to share their perspectives on the current state of privacy inside and outside of their organizations. This year’s report focused on emerging areas of importance for privacy and compliance professionals, including considerations and implications of Artificial Intelligence (AI) technologies, building brand trust, and different approaches for achieving higher privacy competence scores.
See how organizational priorities and strategic approaches to data security and privacy are evolving around the globe.
This webinar will review:
- The top 10 privacy insights from the fifth annual Global Privacy Benchmarks Survey
- The top challenges for privacy leaders, practitioners, and organizations in 2024
- Key themes to consider in developing and maintaining your privacy program
Trusted Execution Environment for Decentralized Process MiningLucaBarbaro3
Presentation of the paper "Trusted Execution Environment for Decentralized Process Mining" given during the CAiSE 2024 Conference in Cyprus on June 7, 2024.
Monitoring and Managing Anomaly Detection on OpenShift.pdfTosin Akinosho
Monitoring and Managing Anomaly Detection on OpenShift
Overview
Dive into the world of anomaly detection on edge devices with our comprehensive hands-on tutorial. This SlideShare presentation will guide you through the entire process, from data collection and model training to edge deployment and real-time monitoring. Perfect for those looking to implement robust anomaly detection systems on resource-constrained IoT/edge devices.
Key Topics Covered
1. Introduction to Anomaly Detection
- Understand the fundamentals of anomaly detection and its importance in identifying unusual behavior or failures in systems.
2. Understanding Edge (IoT)
- Learn about edge computing and IoT, and how they enable real-time data processing and decision-making at the source.
3. What is ArgoCD?
- Discover ArgoCD, a declarative, GitOps continuous delivery tool for Kubernetes, and its role in deploying applications on edge devices.
4. Deployment Using ArgoCD for Edge Devices
- Step-by-step guide on deploying anomaly detection models on edge devices using ArgoCD.
5. Introduction to Apache Kafka and S3
- Explore Apache Kafka for real-time data streaming and Amazon S3 for scalable storage solutions.
6. Viewing Kafka Messages in the Data Lake
- Learn how to view and analyze Kafka messages stored in a data lake for better insights.
7. What is Prometheus?
- Get to know Prometheus, an open-source monitoring and alerting toolkit, and its application in monitoring edge devices.
8. Monitoring Application Metrics with Prometheus
- Detailed instructions on setting up Prometheus to monitor the performance and health of your anomaly detection system.
9. What is Camel K?
- Introduction to Camel K, a lightweight integration framework built on Apache Camel, designed for Kubernetes.
10. Configuring Camel K Integrations for Data Pipelines
- Learn how to configure Camel K for seamless data pipeline integrations in your anomaly detection workflow.
11. What is a Jupyter Notebook?
- Overview of Jupyter Notebooks, an open-source web application for creating and sharing documents with live code, equations, visualizations, and narrative text.
12. Jupyter Notebooks with Code Examples
- Hands-on examples and code snippets in Jupyter Notebooks to help you implement and test anomaly detection models.
HCL Notes und Domino Lizenzkostenreduzierung in der Welt von DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-und-domino-lizenzkostenreduzierung-in-der-welt-von-dlau/
DLAU und die Lizenzen nach dem CCB- und CCX-Modell sind für viele in der HCL-Community seit letztem Jahr ein heißes Thema. Als Notes- oder Domino-Kunde haben Sie vielleicht mit unerwartet hohen Benutzerzahlen und Lizenzgebühren zu kämpfen. Sie fragen sich vielleicht, wie diese neue Art der Lizenzierung funktioniert und welchen Nutzen sie Ihnen bringt. Vor allem wollen Sie sicherlich Ihr Budget einhalten und Kosten sparen, wo immer möglich. Das verstehen wir und wir möchten Ihnen dabei helfen!
Wir erklären Ihnen, wie Sie häufige Konfigurationsprobleme lösen können, die dazu führen können, dass mehr Benutzer gezählt werden als nötig, und wie Sie überflüssige oder ungenutzte Konten identifizieren und entfernen können, um Geld zu sparen. Es gibt auch einige Ansätze, die zu unnötigen Ausgaben führen können, z. B. wenn ein Personendokument anstelle eines Mail-Ins für geteilte Mailboxen verwendet wird. Wir zeigen Ihnen solche Fälle und deren Lösungen. Und natürlich erklären wir Ihnen das neue Lizenzmodell.
Nehmen Sie an diesem Webinar teil, bei dem HCL-Ambassador Marc Thomas und Gastredner Franz Walder Ihnen diese neue Welt näherbringen. Es vermittelt Ihnen die Tools und das Know-how, um den Überblick zu bewahren. Sie werden in der Lage sein, Ihre Kosten durch eine optimierte Domino-Konfiguration zu reduzieren und auch in Zukunft gering zu halten.
Diese Themen werden behandelt
- Reduzierung der Lizenzkosten durch Auffinden und Beheben von Fehlkonfigurationen und überflüssigen Konten
- Wie funktionieren CCB- und CCX-Lizenzen wirklich?
- Verstehen des DLAU-Tools und wie man es am besten nutzt
- Tipps für häufige Problembereiche, wie z. B. Team-Postfächer, Funktions-/Testbenutzer usw.
- Praxisbeispiele und Best Practices zum sofortigen Umsetzen
The numbers on this slide refers to the potential for OPERATORS, not the industries that use the 5G connectivity.
- A recent 2017 Ericsson study with Arthur D. Little looked at the value of 5G for industries and the role operators can play.
- We expect there will be a USD 582 billion market opportunity as telecom operators leverage 5G technology for industry digitalization
This adds an addressable market potential of 34 percent in revenue growth.
Most potential for revenues are in manufacturing, energy and utilities sectors
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