Showing posts with label MEC. Show all posts
Showing posts with label MEC. Show all posts

Thursday, August 6, 2020

AWS Wavelength Zones open in Boston & San Francisco

Amazon announced that the first two AWS Wavelength Zones are now open, one in Boston and the other in San Francisco. The new zones will allow developers who want to build apps to service Verizon Wireless customers in those metropolitan areas.

AWS Wavelength Zones, which were first announced at AWS re:Invent 2019,  allow 5G operators to embed AWS hardware and software in their datacenters. The goal is to allow developers to build and deliver applications that can benefit from ultra-low latency.

Each WZ is associated with a specific AWS region known as the parent region. This is US East (N. Virginia) for the Wavelength Zone in Boston, and US West (N. California) for the AZ in San Francisco.

https://aws.amazon.com/blogs/aws/aws-wavelength-zones-are-now-open-in-boston-san-francisco/

Verizon to offer 5G network edge computing with AWS Wavelength

Verizon will be the first carrier to offer the new AWS Wavelength service to provide developers the ability to deploy applications that require ultra-low latency to mobile devices using 5G.  The service targets latency-sensitive use cases like machine learning inference at the edge, autonomous industrial equipment, smart cars and cities, Internet of Things (IoT), and augmented and virtual reality. The idea is to position AWS compute and storage services at the edge of Verizon’s 5G network.

The companies are currently piloting AWS Wavelength on Verizon’s edge compute platform, 5G Edge, in Chicago for a select group of customers, including video game publisher Bethesda Softworks and the National Football League (NFL). Additional deployments are planned in other locations across the U.S. in 2020.

Verizon 5G Edge provides mobile edge computing and an efficient high-volume connection between users, devices, and applications. AWS Wavelength lets customers deploy the parts of an application that require ultra-low latency to the edge of the network and then seamlessly connect back to the full range of cloud services running in AWS.

AWS also listed Vodafone Business, KDDI, and SK Telecom as partners.



“We are first in the world to launch Mobile Edge Compute -- deeply integrating Verizon’s 5G Edge platform with Wavelength to allow developers to build new categories of applications and network cloud experiences built in ways we can’t even imagine yet,” said Hans Vestberg, CEO and Chairman of Verizon. “Bringing together the full capabilities of Verizon’s 5G Ultra Wideband and AWS, the world's leading cloud with the broadest and deepest services portfolio, we unlock the full potential of our 5G services for customers to create applications and solutions with the fastest speeds, improved security, and ultra-low latency.”

Sunday, July 19, 2020

Multi-access Edge Computing spec expected in Q3

The 5G Future Forum expects to release its first specification for Multi-access Edge Computing (MEC) in the third quarter of 2020.


  • The “MEC Experience Management” technical specification defines a set of intent-based APIs for functional exposure of edge and workload discovery with potential expansion to include future MEC functions and capabilities which are driven by network intelligence
  • The “MEC Deployment” technical specification defines the set of specifications to enable hyperscalers and service providers to deploy and integrate global MEC physical frameworks, including facilities (e.g. power and cooling), monitoring, operational considerations, and security.

The 5G Future Forum was established in January 2020 by América Móvil, KT Corp., Rogers, Telstra, Verizon, and Vodafone to develop 5G interoperability specifications to accelerate the delivery of 5G and MEC solutions around the world. Over the past six months, the Forum’s founding members have been working to create the governance structure for the 5GFF, as well as develop both technical and commercial workstreams.

The specifications will be released in August 2020. Following release of the specifications, the Forum anticipates expanding its membership to qualified new entrants. Other topics are being planned among the existing members with publication timeframes to be communicated shortly.

“The 5G Future Forum was set up to unlock the full potential of 5G and MEC applications and solutions around the globe,” said Rima Qureshi, chief strategy officer, Verizon. “5G is a key enabler of the next industrial revolution, where technology should transform how we live and work through applications including machine learning, autonomous industrial equipment, smart cars and cities, Internet of Things (IoT) and augmented and virtual reality. The release of these first specifications marks a major step forward in helping companies around the world create a seamless global experience for their customers.”

Verizon and IBM work on 5G and edge computing

Verizon Business and IBM are collaborating on 5G and edge computing innovation to help enable the future of Industry 4.0. The companies plan to combine the high speed and low latency of Verizon’s 5G and Multi-access Edge Compute (MEC) capabilities, IoT devices and sensors at the edge, and IBM’s expertise in AI, hybrid multicloud, edge computing, asset management and connected operations.

“The industrial sector is undergoing unprecedented transformation as companies begin to return to full-scale operations, aided by new technology to help reduce costs and increase productivity,” said Bob Lord, Senior Vice President, Cognitive Applications, Blockchain and Ecosystems, IBM. “Through this collaboration, we plan to build upon our longstanding relationship with Verizon to help industrial enterprises capitalize on joint solutions that are designed to be multicloud ready, secured and scalable, from the data center all the way out to the enterprise edge.”

“This collaboration is all about enabling the future of industry in the Fourth Industrial Revolution,” said Tami Erwin, CEO, Verizon Business. “Combining the high speed and low latency of Verizon’s 5G UWB Network and MEC capabilities with IBM’s expertise in enterprise-grade AI and production automation can provide industrial innovation on a massive scale and can help companies increase automation, minimize waste, lower costs, and offer their own clients a better response time and customer experience.”

Monday, January 13, 2020

SK Telecom shares 5G MEC insights

SK Telecom is launching a "Global MEC Task Force" with Bridge Alliance member operators, including Singtel, Globe, Taiwan Mobile and PCCW Global.

SK Telecom said it plans to share lessons-learned in 5G and mobile edge computing (MEC) with other members that are preparing to launch 5G, while making joint efforts for the development of MEC technologies and services. The company will also play a leading role in setting international MEC standards to build an interoperable MEC platform.

“As the global 5G pioneer, SK Telecom is committed to contribute to the expansion of the global 5G ecosystem,” said Lee Kang-won, Vice President and Head of Cloud Labs of SK Telecom. “SK Telecom will work closely with Bridge Alliance Member Operators to help accelerate their progress in 5G and MEC, and create a pan-Asian 5G MEC ecosystem.”

“As the role of telecommunications companies is expanding beyond simply providing mobile connectivity to offering new values based on infrastructure, Bridge Alliance believes that this cooperation will serve as a key driver for realizing win-win business opportunities to all members,” said Ong Geok Chwee, CEO of Bridge Alliance.

Wednesday, January 8, 2020

NTT DOCOMO and MobiledgeX to conduct MEC demo

NTT DOCOMO and MobiledgeX will jointly conduct a proof of concept (PoC) in Tokyo on January 22–24 to verify a solution that leverages multi-access edge computing (MEC) for the worldwide distribution of applications.

In the PoC, a “markerless” augmented-reality (AR) application based on the Edge Realities platform offered by 1000 realities, a Poland-based software studio, will be distributed to the MEC platform, DOCOMO Open Innovation Cloud, connected to 5G and LTE networks operated by DOCOMO in Japan. Edge Realities uses space-recognition technology to superimpose AR content on real objects and large spaces without using place markers. Thanks to outsourcing all computation to the MEC platform and its low-latency network, Edge Realities will be fully hardware agnostic and useable on hardware that does not have native AR capabilities. The MEC platform will enable the content to be positioned in space and displayed, without any time lag. Tanseisha Co., Ltd. and DOCOMO Innovations, Inc. will support the PoC. The event will take place in the Tokyo Big Sight exhibition complex in Tokyo.

MobiledgeX’s solution offers a developer portal site for distributing applications to MEC infrastructure, such as servers and storage systems, located on the edges of mobile operator networks that are close to customers in markets overseas.

DOCOMO and MobiledgeX aim to collaborate on a range of 5G solutions for the global market, which will be distributed in cooperation with partners in Japan and other countries.

https://mobiledgex.com/press-releases/2020/01/08/ntt-docomo-and-mobiledgex-demonstrate-worldwide-distribution-of-5g-applications-in-japan

Tuesday, December 3, 2019

Verizon to offer 5G network edge computing with AWS Wavelength

Verizon will be the first carrier to offer the new AWS Wavelength service to provide developers the ability to deploy applications that require ultra-low latency to mobile devices using 5G.  The service targets latency-sensitive use cases like machine learning inference at the edge, autonomous industrial equipment, smart cars and cities, Internet of Things (IoT), and augmented and virtual reality. The idea is to position AWS compute and storage services at the edge of Verizon’s 5G network.

The companies are currently piloting AWS Wavelength on Verizon’s edge compute platform, 5G Edge, in Chicago for a select group of customers, including video game publisher Bethesda Softworks and the National Football League (NFL). Additional deployments are planned in other locations across the U.S. in 2020.

Verizon 5G Edge provides mobile edge computing and an efficient high-volume connection between users, devices, and applications. AWS Wavelength lets customers deploy the parts of an application that require ultra-low latency to the edge of the network and then seamlessly connect back to the full range of cloud services running in AWS.

AWS also listed Vodafone Business, KDDI, and SK Telecom as partners.



“We are first in the world to launch Mobile Edge Compute -- deeply integrating Verizon’s 5G Edge platform with Wavelength to allow developers to build new categories of applications and network cloud experiences built in ways we can’t even imagine yet,” said Hans Vestberg, CEO and Chairman of Verizon. “Bringing together the full capabilities of Verizon’s 5G Ultra Wideband and AWS, the world's leading cloud with the broadest and deepest services portfolio, we unlock the full potential of our 5G services for customers to create applications and solutions with the fastest speeds, improved security, and ultra-low latency.”

“We’ve worked closely with Verizon to deliver a way for AWS customers to easily take advantage of the ubiquitous connectivity and advanced features of 5G,” said Andy Jassy, CEO of AWS. “AWS Wavelength provides the same AWS environment -- APIs, management console, and tools -- that they’re using today at the edge of the 5G network. Starting with Verizon’s 5G network locations in the US, customers will be able to deploy the latency-sensitive portions of an application at the edge to provide single-digit millisecond latency to mobile and connected devices. ”

https://aws.amazon.com/wavelength/?hp=r

Microsoft and AT&T preview Network Edge Compute


Microsoft and AT&T announced select preview availability for Network Edge Compute (NEC) technology, which weaves Microsoft Azure cloud services into AT&T network edge locations closer to customers. NEC will initially be available for a limited set of select customers in Dallas. Next year, Los Angeles and Atlanta are targeted for select customer availability. NEC is enabled by AT&T’s software-defined and virtualized 5G core, which the...


Sunday, March 24, 2019

Germany's Car2MEC project trials Multi-access Edge Computing

Car2MEC, a project funded by the Bavarian Ministry for Economic Affairs, wrapped two years of intensive trialing and testing by Continental, Deutsche Telekom, Fraunhofer ESK, MHP and Nokia on the A9 motorway digital test track in Germany.

The project mission was to gain insights into the value of MEC for connected driving with regards to technology and network architecture as well as economically. The project partners tested a number of different use cases on the A9 motorway, including "emergency warning", "end of jam warning", "variable speed limit assistant" and "HD maps".

For the motorway test set-up, Deutsche Telekom deployed two locally separated MEC nodes based on Nokia's technology. The testbed shared resources with the LTE live network and had been operated for 12 months allowing for extensive test drives.  Fraunhofer ESK's hybrid communication units enabled a highly-efficient distributed messaging service (GeoService) on the multi-access edge nodes. MHP provided insights into MEC's value for connected driving from a business perspective.

"The project results validate the performance of edge computing over our 4G networks as a potential enabler for automotive cases that require low latency and ultra-high reliability," says Alexander Lautz, Senior Vice President 5G, Deutsche Telekom. "Going forward, we will continue to collaborate with partners in the automotive sector on the evolution of the technology and its application in connected and automated driving solutions that will deliver the best driving experience."

Uwe Puetzschler, Car2MEC project lead and head of Car2X at Nokia : "The results from this project mark a big step forward on the way to safe and automated driving. We have demonstrated that the Edge Cloud on top of 4G and 5G networks allows to deploy distributed applications that meet the requirements of the automotive industry in terms of latency and reliability. This will accelerate a commercial deployment of the technology."

ETSI Multi-access Edge Computing phase 2 specs released

The ETSI Multi-access Edge Computing group (MEC ISG) released the first set of its Phase 2 specifications, including ETSI GS MEC 002 which includes new requirements for Phase 2, ETSI GS MEC 003 dealing with architecture and framework, and  ETSI GS MEC 009 giving general principles for service APIs.

The updated specs focus on the integration of NFV integration. The specification also describes example use cases and their technical benefits, for the purpose of deriving requirements. In addition, the release includes a report on MEC support for vehicle to infrastructure and vehicle to vehicle use cases.

“With this Release, the group continues to strengthen the leadership role that ETSI has played in edge computing since day one. I am proud of the quality of the work this team keeps delivering, making sure that the MEC marketplace evolves to an efficient, interoperable and open environment” says Alex Reznik, MEC ISG Chair. 

https://www.etsi.org/newsroom/press-releases/1567-2019-03-etsi-multi-access-edge-computing-releases-phase-2-specifications

Sunday, March 11, 2018

Reliance JIO and Cisco collaborate on Multi-Access Edge Computing

Cisco and Reliance Jio are collaborating in multi-access edge computing. The companies are developing a use case to optimize and enhance video experience over the network by building a mobile content delivery network (CDN). In this concept, the CDN is integrated into the mobile LTE network with edge caches in close proximity to the mobile users.

The idea with a mobile CDN is for the mobile operator to deliver content via edge cloudlets to provide a better user experience with lower latency and higher performance.

Cisco said its mobile CDN work with Reliance Jio uses a combination of IP address management techniques based on the mobile core, requiring tight integration between edge cache, mid-tier cache, and the traffic router in the Cisco Open Media Distribution system. The mobile core and the Cisco Open Media Distribution are combined into one system level solution for the CDN embedded in the mobile network.

To solve the problem of user plane selection, the system uses Control/User Plane Separation (CUPS) as defined in 3GPP R14.

Cisco and Reliance Jio also solved the issue of assigning a geographically appropriate IP address to the mobile device and the issue of handover resiliency in the face of IP address changes on the client side and the CDN cache site without change or disturbance to the current services.