�ݺ�ߣshows by User: Ericsson

�ݺ�ߣshows by User: Ericsson / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: Ericsson / Wed, 14 Oct 2020 12:58:38 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: Ericsson Ericsson Technology Review: Versatile Video Coding explained – the future of video in a 5G world /slideshow/ericsson-technology-review-versatile-video-coding-explained-the-future-of-video-in-a-5g-world/238872578 versatile-video-coding-explained-201014125838
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.]]>
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.]]> Wed, 14 Oct 2020 12:58:38 GMT /slideshow/ericsson-technology-review-versatile-video-coding-explained-the-future-of-video-in-a-5g-world/238872578 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: Versatile Video Coding explained – the future of video in a 5G world 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/versatile-video-coding-explained-201014125838-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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.

Ericsson Technology Review: Versatile Video Coding explained – the future of video in a 5G world from Ericsson

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1 Ericsson Technology Review: issue 2, 2020 /slideshow/ericsson-technology-review-issue-2-2020/238678780 etr-magazine-2020-02-200930084654
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]]>
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]]> Wed, 30 Sep 2020 08:46:54 GMT /slideshow/ericsson-technology-review-issue-2-2020/238678780 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: issue 2, 2020 Ericsson 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 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/etr-magazine-2020-02-200930084654-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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: issue 2, 2020 from Ericsson

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1 Ericsson Technology Review: Integrated access and backhaul – a new type of wireless backhaul in 5G /Ericsson/ericsson-technology-review-integrated-access-and-backhaul-a-new-type-of-wireless-backhaul-in-5g introducing-integrated-access-and-backhaul-200623084907
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.]]>
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.]]> Tue, 23 Jun 2020 08:49:06 GMT /Ericsson/ericsson-technology-review-integrated-access-and-backhaul-a-new-type-of-wireless-backhaul-in-5g Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: Integrated access and backhaul – a new type of wireless backhaul in 5G 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/introducing-integrated-access-and-backhaul-200623084907-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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: Integrated access and backhaul – a new type of wireless backhaul in 5G from Ericsson

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1 Ericsson Technology Review: Critical IoT connectivity: Ideal for time-critical communications /slideshow/ericsson-technology-review-critical-iot-connectivity-ideal-for-timecritical-communications/234859883 critical-iot-connectivity-200602084202
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.]]>
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.]]> Tue, 02 Jun 2020 08:42:02 GMT /slideshow/ericsson-technology-review-critical-iot-connectivity-ideal-for-timecritical-communications/234859883 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: Critical IoT connectivity: Ideal for time-critical communications 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/critical-iot-connectivity-200602084202-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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.

Ericsson Technology Review: Critical IoT connectivity: Ideal for time-critical communications from Ericsson

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1 Ericsson Technology Review: 5G evolution: 3GPP releases 16 & 17 overview (update) /slideshow/ericsson-technology-review-5g-evolution-3gpp-releases-16-17-overview-update/234633518 5g-nr-evolution-200527142740
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.]]>
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.]]> Wed, 27 May 2020 14:27:40 GMT /slideshow/ericsson-technology-review-5g-evolution-3gpp-releases-16-17-overview-update/234633518 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: 5G evolution: 3GPP releases 16 & 17 overview (update) Ericsson 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/5g-nr-evolution-200527142740-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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: 5G evolution: 3GPP releases 16 & 17 overview (update) from Ericsson

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1 Ericsson Technology Review: The future of cloud computing: Highly distributed with heterogeneous hardware /slideshow/ericsson-technology-review-the-future-of-cloud-computing-highly-distributed-with-heterogeneous-hardware/233654592 the-future-of-cloud-computing-200512082105
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.]]>
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.]]> Tue, 12 May 2020 08:21:05 GMT /slideshow/ericsson-technology-review-the-future-of-cloud-computing-highly-distributed-with-heterogeneous-hardware/233654592 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: The future of cloud computing: Highly distributed with heterogeneous hardware 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/the-future-of-cloud-computing-200512082105-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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: The future of cloud computing: Highly distributed with heterogeneous hardware from Ericsson

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1 Ericsson Technology Review: Optimizing UICC modules for IoT applications /slideshow/ericsson-technology-review-optimizing-uicc-modules-for-iot-applications/231964370 uicc-modules-and-the-iot-200414084920
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.]]>
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.]]> Tue, 14 Apr 2020 08:49:20 GMT /slideshow/ericsson-technology-review-optimizing-uicc-modules-for-iot-applications/231964370 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: Optimizing UICC modules for IoT applications Ericsson 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/uicc-modules-and-the-iot-200414084920-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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.

Ericsson Technology Review: Optimizing UICC modules for IoT applications from Ericsson

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1 Ericsson Technology Review: issue 1, 2020 /slideshow/ericsson-technology-review-issue-1-2020/231623897 etr-magazine-2020-01-200408082618
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.]]>
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.]]> Wed, 08 Apr 2020 08:26:18 GMT /slideshow/ericsson-technology-review-issue-1-2020/231623897 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: issue 1, 2020 Ericsson 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/etr-magazine-2020-01-200408082618-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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: issue 1, 2020 from Ericsson

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1 Ericsson Technology Review: 5G BSS: Evolving BSS to fit the 5G economy /slideshow/ericsson-technology-review-5g-bss-evolving-bss-to-fit-the-5g-economy/230904526 evolving-bss-to-fit-the-5g-economy-200326095545
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.]]>
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.]]> Thu, 26 Mar 2020 09:55:45 GMT /slideshow/ericsson-technology-review-5g-bss-evolving-bss-to-fit-the-5g-economy/230904526 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: 5G BSS: Evolving BSS to fit the 5G economy Ericsson 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/evolving-bss-to-fit-the-5g-economy-200326095545-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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 BSS: Evolving BSS to fit the 5G economy from Ericsson

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1 Ericsson Technology Review: 5G migration strategy from EPS to 5G system /Ericsson/ericsson-technology-review-5g-migration-strategy-from-eps-to-5g-system migration-from-eps-to-5g-200227141645
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.]]>
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.]]> Thu, 27 Feb 2020 14:16:45 GMT /Ericsson/ericsson-technology-review-5g-migration-strategy-from-eps-to-5g-system Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: 5G migration strategy from EPS to 5G system Ericsson 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/migration-from-eps-to-5g-200227141645-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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: 5G migration strategy from EPS to 5G system from Ericsson

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1 Ericsson Technology Review: Creating the next-generation edge-cloud ecosystem /slideshow/ericsson-technology-review-creating-the-nextgeneration-edgecloud-ecosystem/228546617 next-generation-cloud-edge-ecosystems-200218094530
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.]]>
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.]]> Tue, 18 Feb 2020 09:45:30 GMT /slideshow/ericsson-technology-review-creating-the-nextgeneration-edgecloud-ecosystem/228546617 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: Creating the next-generation edge-cloud ecosystem Ericsson 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/next-generation-cloud-edge-ecosystems-200218094530-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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.

Ericsson Technology Review: Creating the next-generation edge-cloud ecosystem from Ericsson

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1 Ericsson Technology Review: Issue 2/2019 /Ericsson/ericsson-technology-review-issue-22019 etr-magazine-2019-02-191121150343
The rise of the innovation platform Society and industry are transforming at an unprecedented rate. At the same time, the network platform is emerging as an innovation platform with the potential to offer all the connectivity, processing, storage and security needed by current and future applications. In my 2019 trends article, featured in this issue of Ericsson Technology Review, I share my view of the future network platform in relation to six key technology trends. This issue of the magazine also addresses critical topics such as trust enablement, the extension of computing resources all the way to the edge of the mobile network, the growing impact of the cloud in the telco domain, overcoming latency and battery consumption challenges, and the need for end-to-end connectivity. I hope it provides you with valuable insights about how to overcome the challenges ahead and take full advantage of new opportunities.]]>
The rise of the innovation platform Society and industry are transforming at an unprecedented rate. At the same time, the network platform is emerging as an innovation platform with the potential to offer all the connectivity, processing, storage and security needed by current and future applications. In my 2019 trends article, featured in this issue of Ericsson Technology Review, I share my view of the future network platform in relation to six key technology trends. This issue of the magazine also addresses critical topics such as trust enablement, the extension of computing resources all the way to the edge of the mobile network, the growing impact of the cloud in the telco domain, overcoming latency and battery consumption challenges, and the need for end-to-end connectivity. I hope it provides you with valuable insights about how to overcome the challenges ahead and take full advantage of new opportunities.]]> Thu, 21 Nov 2019 15:03:43 GMT /Ericsson/ericsson-technology-review-issue-22019 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: Issue 2/2019 Ericsson The rise of the innovation platform Society and industry are transforming at an unprecedented rate. At the same time, the network platform is emerging as an innovation platform with the potential to offer all the connectivity, processing, storage and security needed by current and future applications. In my 2019 trends article, featured in this issue of Ericsson Technology Review, I share my view of the future network platform in relation to six key technology trends. This issue of the magazine also addresses critical topics such as trust enablement, the extension of computing resources all the way to the edge of the mobile network, the growing impact of the cloud in the telco domain, overcoming latency and battery consumption challenges, and the need for end-to-end connectivity. I hope it provides you with valuable insights about how to overcome the challenges ahead and take full advantage of new opportunities. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/etr-magazine-2019-02-191121150343-thumbnail.jpg?width=120&height=120&fit=bounds" /> The rise of the innovation platform Society and industry are transforming at an unprecedented rate. At the same time, the network platform is emerging as an innovation platform with the potential to offer all the connectivity, processing, storage and security needed by current and future applications. In my 2019 trends article, featured in this issue of Ericsson Technology Review, I share my view of the future network platform in relation to six key technology trends. This issue of the magazine also addresses critical topics such as trust enablement, the extension of computing resources all the way to the edge of the mobile network, the growing impact of the cloud in the telco domain, overcoming latency and battery consumption challenges, and the need for end-to-end connectivity. I hope it provides you with valuable insights about how to overcome the challenges ahead and take full advantage of new opportunities.

Ericsson Technology Review: Issue 2/2019 from Ericsson

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1 Ericsson Technology Review: Spotlight on the Internet of Things /slideshow/ericsson-technology-review-spotlight-on-the-internet-of-things/182338272 etr-magazine-2019-special-issue-iot-191015083432
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.]]>
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.]]> Tue, 15 Oct 2019 08:34:32 GMT /slideshow/ericsson-technology-review-spotlight-on-the-internet-of-things/182338272 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: Spotlight on the Internet of Things Ericsson 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/etr-magazine-2019-special-issue-iot-191015083432-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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: Spotlight on the Internet of Things from Ericsson

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1 Ericsson Technology Review - Technology Trends 2019 /Ericsson/ericsson-technology-review-technology-trends-2019 technology-trends-2019-191008071635
Six key trends manifesting the platform for innovation.]]>
Six key trends manifesting the platform for innovation.]]> Tue, 08 Oct 2019 07:16:35 GMT /Ericsson/ericsson-technology-review-technology-trends-2019 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review - Technology Trends 2019 Ericsson Six key trends manifesting the platform for innovation. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/technology-trends-2019-191008071635-thumbnail.jpg?width=120&height=120&fit=bounds" /> Six key trends manifesting the platform for innovation.

Ericsson Technology Review - Technology Trends 2019 from Ericsson

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1 Ericsson Technology Review: Driving transformation in the automotive and road transport ecosystem with 5G /slideshow/ericsson-technology-review-driving-transformation-in-the-automotive-and-road-transport-ecosystem-with-5g/171518895 etr-transforming-transportation-with-5g-190913105056
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.]]>
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.]]> Fri, 13 Sep 2019 10:50:56 GMT /slideshow/ericsson-technology-review-driving-transformation-in-the-automotive-and-road-transport-ecosystem-with-5g/171518895 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: Driving transformation in the automotive and road transport ecosystem with 5G 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/etr-transforming-transportation-with-5g-190913105056-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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.

Ericsson Technology Review: Driving transformation in the automotive and road transport ecosystem with 5G from Ericsson

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1 SD-WAN Orchestration /slideshow/sdwan-orchestration/168470650 sd-wanorchestrationcommercialpresentationslidesharefinal-190902182643
This presentation explains the importance of SD-WAN technology as part of the Enterprise digital transformation strategy. It goes over the first wave of SD-WAN in a single vendor deployment, with Do-it-yourself (DIY) as the preferred model. Then continues with the importance of orchestration in the second wave of SD-WAN deployments in a multi-vendor ecosystem, turning to SD-WAN Managed Services as the preferred model. It ends up with some examples of use cases and the Verizon customer case. More information on Ericsson Dynamic orchestration - http://m.eric.sn/6rsZ30psKLu]]>
This presentation explains the importance of SD-WAN technology as part of the Enterprise digital transformation strategy. It goes over the first wave of SD-WAN in a single vendor deployment, with Do-it-yourself (DIY) as the preferred model. Then continues with the importance of orchestration in the second wave of SD-WAN deployments in a multi-vendor ecosystem, turning to SD-WAN Managed Services as the preferred model. It ends up with some examples of use cases and the Verizon customer case. More information on Ericsson Dynamic orchestration - http://m.eric.sn/6rsZ30psKLu]]> Mon, 02 Sep 2019 18:26:42 GMT /slideshow/sdwan-orchestration/168470650 Ericsson@slideshare.net(Ericsson) SD-WAN Orchestration Ericsson This presentation explains the importance of SD-WAN technology as part of the Enterprise digital transformation strategy. It goes over the first wave of SD-WAN in a single vendor deployment, with Do-it-yourself (DIY) as the preferred model. Then continues with the importance of orchestration in the second wave of SD-WAN deployments in a multi-vendor ecosystem, turning to SD-WAN Managed Services as the preferred model. It ends up with some examples of use cases and the Verizon customer case. More information on Ericsson Dynamic orchestration - http://m.eric.sn/6rsZ30psKLu <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/sd-wanorchestrationcommercialpresentationslidesharefinal-190902182643-thumbnail.jpg?width=120&height=120&fit=bounds" /> This presentation explains the importance of SD-WAN technology as part of the Enterprise digital transformation strategy. It goes over the first wave of SD-WAN in a single vendor deployment, with Do-it-yourself (DIY) as the preferred model. Then continues with the importance of orchestration in the second wave of SD-WAN deployments in a multi-vendor ecosystem, turning to SD-WAN Managed Services as the preferred model. It ends up with some examples of use cases and the Verizon customer case. More information on Ericsson Dynamic orchestration - http://m.eric.sn/6rsZ30psKLu

SD-WAN Orchestration from Ericsson

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1 Ericsson Technology Review: 5G-TSN integration meets networking requirements for industrial automation /slideshow/ericsson-technology-review-5gtsn-integration-meets-networking-requirements-for-industrial-automation/166793155 5g-tsn-integration-for-industrial-automation-190827090347
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.]]>
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.]]> Tue, 27 Aug 2019 09:03:46 GMT /slideshow/ericsson-technology-review-5gtsn-integration-meets-networking-requirements-for-industrial-automation/166793155 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: 5G-TSN integration meets networking requirements for industrial automation 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/5g-tsn-integration-for-industrial-automation-190827090347-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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: 5G-TSN integration meets networking requirements for industrial automation from Ericsson

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1 Ericsson Technology Review: Meeting 5G latency requirements with inactive state /slideshow/ericsson-technology-review-meeting-5g-latency-requirements-with-inactive-state/151490592 the-inactive-state-in-5g-new-radio-190624082044
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.]]>
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.]]> Mon, 24 Jun 2019 08:20:44 GMT /slideshow/ericsson-technology-review-meeting-5g-latency-requirements-with-inactive-state/151490592 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: Meeting 5G latency requirements with inactive state Ericsson 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/the-inactive-state-in-5g-new-radio-190624082044-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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: Meeting 5G latency requirements with inactive state from Ericsson

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1 Ericsson Technology Review: Cloud-native application design in the telecom domain Cloud-native application design is set to become common practice /slideshow/ericsson-technology-review-cloudnative-application-design-in-the-telecom-domain-cloudnative-application-design-is-set-to-become-common-practice/148910927 cloud-native-application-design-190605090337
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.]]>
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.]]> Wed, 05 Jun 2019 09:03:37 GMT /slideshow/ericsson-technology-review-cloudnative-application-design-in-the-telecom-domain-cloudnative-application-design-is-set-to-become-common-practice/148910927 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: Cloud-native application design in the telecom domain Cloud-native application design is set to become common practice 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/cloud-native-application-design-190605090337-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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: Cloud-native application design in the telecom domain Cloud-native application design is set to become common practice from Ericsson

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1 Ericsson Technology Review: Service exposure: a critical capability in a 5G world /slideshow/ericsson-technology-review-service-exposure-a-critical-capability-in-a-5g-world/144102144 service-exposure-in-5g-190507083935
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. ]]>
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. ]]> Tue, 07 May 2019 08:39:35 GMT /slideshow/ericsson-technology-review-service-exposure-a-critical-capability-in-a-5g-world/144102144 Ericsson@slideshare.net(Ericsson) Ericsson Technology Review: Service exposure: a critical capability in a 5G world 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. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/service-exposure-in-5g-190507083935-thumbnail.jpg?width=120&height=120&fit=bounds" /> 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.

Ericsson Technology Review: Service exposure: a critical capability in a 5G world from Ericsson

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1 https://cdn.slidesharecdn.com/profile-photo-Ericsson-48x48.jpg?cb=1672666613 www.ericsson.com https://cdn.slidesharecdn.com/ss_thumbnails/versatile-video-coding-explained-201014125838-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/ericsson-technology-review-versatile-video-coding-explained-the-future-of-video-in-a-5g-world/238872578 Ericsson Technology Re... https://cdn.slidesharecdn.com/ss_thumbnails/etr-magazine-2020-02-200930084654-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/ericsson-technology-review-issue-2-2020/238678780 Ericsson Technology R... https://cdn.slidesharecdn.com/ss_thumbnails/introducing-integrated-access-and-backhaul-200623084907-thumbnail.jpg?width=320&height=320&fit=bounds Ericsson/ericsson-technology-review-integrated-access-and-backhaul-a-new-type-of-wireless-backhaul-in-5g Ericsson Technology Re...