Comcast selects Nokia’s 5G SA Core software to support its mobile connectivity efforts

Today, Comcast announced it will roll out Nokia’s 5G Stand Alone Core networking software to support its deployment of CBRS and 600MHz spectrum to Xfinity Mobile and Comcast Business Mobile customers in its service areas across the United States.

Comcast will deploy that spectrum in select, high-traffic areas in support of both residential and business customers that take mobile services from the operator. Deploying fresh spectrum in those areas will give Comcast a greater degree of ownership economics with wireless and help to offset a portion of the MVNO costs associated with its pact with Verizon. Those deployments will also build on Comcast’s current Wi-Fi offload strategy that involves millions of access points deployed in customer homes and in certain metro areas.

Nokia will supply Comcast with its 5G Stand Alone Core networking software, including Packet Core, delivering near zero touch automation and ultra low latency capabilities, as well as operations software and consulting services. These offerings will support Comcast’s efforts to deliver enhanced 5G access to consumer and business customers in the U.S. using Citizens Broadband Radio Service (CBRS) and 600 MHz spectrum.

By combining Nokia’s software with Comcast’s targeted, capital-light network design, Comcast can cost-effectively deliver enhanced 5G and WiFi mobile connectivity to its more than five million Xfinity Mobile and Comcast Business Mobile customers. Comcast and Nokia are currently conducting field trials, which includes Comcast employee testing.

As the demand for reliable Internet access inside and outside of the home and office rapidly increases, Comcast’s mid-band (CBRS) and low-band (600MHz) spectrum enable the company to supplement its existing Xfinity WiFi network and cellular network partnership with additional targeted 5G coverage in certain high-traffic areas within its service territory.

Xfinity Mobile and Comcast Business Mobile services are built for the way people use mobile today, with the Internet at the core of the experience. Calls and texts are free, and customers can experience the freedom of paying by the gig or unlimited, and switch between payment options at any time for any line on their account. For complete pricing and availability details, please visit Xfinity Mobile or Comcast Business Mobile.

Nokia claims to be leading the 5G Standalone Core market, with over 80 communication service provider (CSP) customers around the world. In addition, 25 of the top 40 CSPs by revenue rely on Nokia Core network products.

Comcast and Nokia are currently conducting field trials, including tests with Comcast employees. Comcast didn’t reveal the location of its test markets, but the announcement indicates the operator is finally starting to gear up this important piece of its wireless strategy.

This deal comes more than two years after the company bid for and won licensed CBRS spectrum. Comcast also spent $1.7 billion on 600MHz spectrum licenses  in 2017.

Though Comcast has no plans to deploy a national wireless network, it estimates that its current spectrum holdings cover roughly 80% of its homes passed and about 50% of the US population.

Tom Nagel, SVP, Wireless Strategy at Comcast, said: ”We are pleased to be working with Nokia to enable Comcast’s advanced 5G mobile products and services for our customers. Combining Nokia’s industry-leading solutions with Comcast’s targeted network design and new dual SIM technology allows us to create exciting next-generation wireless offerings.”

Fran Heeran, SVP & General Manager of Core Networks, Cloud and Network Services, at Nokia, said: “We are delighted to partner with Comcast and provide Nokia’s advanced 5G Core portfolio to deliver innovative 5G customer offerings securely, at scale, and with advanced operational efficiencies.”

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Last fall, Comcast announced it would use Samsung radios, including strand-mounted small cells, for its targeted 5G network. Comcast will deploy separate Samsung radios for the CBRS and 600MHz bands and use its wireline network to help backhaul traffic.

At the time, Comcast confirmed to Light Reading that its wireless network deployment is “using a multi-vendor solution but not within an open RAN framework.”

Comcast’s wireless network evolution is underway as the operator continues to grow a mobile business that launched almost six years ago. Comcast added a record 365,000 mobile lines in Q4 2022, raising its total to 5.31 million.

Meanwhile, Comcast recently introduced a limited-time service convergence bundle for new customers that offers one unlimited mobile line and a 200Mbit/s home broadband service (with the Wi-Fi gateway included) for $50 per month – for a period of 24 months.

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References:

https://corporate.comcast.com/press/releases/nokias-5g-core-selected-support-comcast-mobile-connectivity-efforts

https://www.lightreading.com/5g-and-beyond/comcast-shares-wireless-wealth-with-nokia/d/d-id/783415

Counterpoint Research: Ericsson and Nokia lead in 5G SA Core Network Deployments

https://www.nokia.com/networks/core/5g-core/

 

 

Samsung announces 5G NTN modem technology for Exynos chip set; Omnispace and Ligado Networks MoU

Samsung Electronics, a leader in advanced semiconductor technology, today announced that it has secured standardized 5G non-terrestrial networks (NTN) [1.] modem technology for direct communication between smartphones and satellites, especially in remote areas. Samsung plans to integrate this technology into the company’s Exynos modem solutions, accelerating the commercialization of 5G satellite communications and paving the way for the 6G-driven Internet of Everything (IoE) era.  That’s noteworthy considering Samsung’s latest flagship smartphone, the Galaxy S23, does not use Samsung’s Exynos platform and instead only uses Qualcomm’s Snapdragon chipset.

Note 1.  There are no ITU or ETSI standards for 5G NTN– only for 5G terrestrial networks.  It is not even under consideration for the next revision o the 5G RAN standard– ITU-R M.2150-1.

NTN is a communications technology that uses satellites and other non-terrestrial vehicles to bring connectivity to regions that were previously unreachable by terrestrial networks, whether over mountains, across deserts or in the middle of the ocean. It will also be critical in assuring operability in disaster areas and powering future urban air mobility (UAM) such as unmanned aircraft and flying cars.

Source: Samsung

“This milestone builds on our rich legacy in wireless communications technologies, following the introduction of the industry’s first commercial 4G LTE modem in 2009 and the industry’s first 5G modem in 2018,” said Min Goo Kim, Executive Vice President of CP (Communication Processor) Development at Samsung Electronics. “Samsung aims to take the lead in advancing hybrid terrestrial-NTN communications ecosystems around the world in preparation for the arrival of 6G.”

By meeting the latest 5G NTN specifications defined by the 3rd Generation Partnership Project (3GPP Release 17), [2.] Samsung’s NTN technology will help ensure interoperability and scalability among services offered by global telecom carriers, mobile device makers and chip companies.

Note 2.  3GPP Release 17 contains specs for 5G-NR over Non terrestrial Networks (NTN) and NB-IoT over NTN,

Impacts on 5GC of Satellite NG-RAN used as new RAN 3GPP access

In 3GPP Rel-17, only direct access with transparent satellite is considered, as shown in following figure:

Source: 3GPP

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For highly reliable NTN communication with low Earth orbit (LEO) satellites, Samsung has developed and simulated 5G NTN standard-based satellite technology using its Exynos Modem 5300 reference platform to accurately predict satellite locations and minimize frequency offsets caused by the Doppler shift. Based on this technology, Samsung’s future Exynos modems will support two-way text messaging as well as high-definition image and video sharing.  That would be an important development considering today’s phone-to-satellite services generally support only slow-speed emergency messaging (e.g. Apple iPhone 14). An offering that supports high-bandwidth services like video calling would presumably require far more satellites than today’s services use – and it could also pose a challenge to terrestrial mobile network operators looking to make profits from offering high-bandwidth services in remote or rural areas.

Additionally, Samsung said it plans to secure a standardized NB-IoT NTN technology for use in its next-generation modem platforms. With integrated satellite connectivity, Samsung’s NB-IoT solutions will eliminate the need for a separate high-power wireless antenna chip inside smartphones, providing mobile device makers with much greater design flexibility.

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Samsung has not disclosed when the company might begin offering satellite services in its 5G NTN equipped phones, how much the service might cost, and which satellite operators might support the offering.

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In a related development, Omnispace and Ligado Networks today announced a new Memorandum of Understanding (MoU) to combine their respective spectrum holdings in order to offer “space-based, direct-to-device (D2D) solutions for global voice, text and data connectivity.

The companies pledged to merge Ligado’s 40MHz of L-band satellite spectrum in the U.S. and Canada with Omnispace’s 60MHz of S-band satellite spectrum. “The combination of L- and S-band spectrum is a unique opportunity to expand the ecosystem of D2D applications and technologies, enhance user experience and extend service globally. For consumer smartphones, the offering will have enough bandwidth to go beyond emergency satellite texting by offering ubiquitous roaming mobile coverage with two-way voice, messaging and data capabilities,” according to the companies’ press release.

However, there are plenty of obstacles to the companies’ ambitions. For example, Ligado has spent years working to free its spectrum of interference concerns, and its financial footing remains a  question. “Ligado has no cash and an overwhelming debt load,” tweeted analyst Tim Farrar with TMF Associates following the announcement from Ligado and Omnispace.

References:

https://news.samsung.com/global/samsung-electronics-introduces-standardized-5g-ntn-modem-technology-to-power-smartphone-satellite-communication

https://portal.3gpp.org/desktopmodules/Specifications/SpecificationDetails.aspx?specificationId=3937

https://www.3gpp.org/specifications-technologies/releases/release-17

Omnispace and Ligado Networks Join Forces to Create Largest Portfolio of Licensed, Satellite Spectrum for Global Direct-to-Device Voice, Text and Data Connectivity

 

 

 

GfK: Global telecom market (x-North America) posts 9.7% revenue drop; smartphone revenues -10.2% in 2022

The 9.7% year-over-year drop in the global telecom market is based on GfK’s exclusive POS (point of sale) data for retailers in 67 countries worldwide, excluding North America.  The industry had $360 billion (U.S. $) in revenue from January to December 2022.

The smartphone segment, including phablets, experienced a 10.2% drop year over year, but still accounted for $330 billion (US) in revenue.  One of the few market drivers in 2022 was consumers with higher and middle incomes. These shoppers now account for 48% of all smartphone buyers, up 4 percentage points compared to 2021.  Demand for premium devices also increased; revenue for 5G models, for example, grew by 1.2% in 2022 versus the year before. The same applies to devices with more storage; smartphones with a capacity of over 256GB recorded an increase of 19% and accounted for 41% of total market revenue in 2022.

“While we had already predicted saturation effects in 2022 after the strong telecom sales in pandemic years, the additional weakness of the Chinese market significantly impacted the results,” explains Jan Lorbach, GfK expert for the Telecom industry. “But GfK expects a stabilization of the telecom market in 2023.”

While consumers who are still buying smartphones are opting for premium devices, the total number of purchases decreased in 2022. One reason may be that people are keeping their smartphones for a longer time. Data from gfknewron Consumer shows that, from January to September 2019, only 48% of consumers used their smartphones for two years or longer; for the same period in 2022, that increased to 57% (an increase of plus 9 percentage points).

This new longevity in ownership can especially be observed in Generation Z (15 to 25 years old), where the share of Gen Z consumers keeping their smartphones for two-plus years now stands at 14 percentage points above the average. This younger generation has a clear focus on sustainability and therefore may be consciously extending the lifecycle of their devices.

Wearables Hold Steady:

One of the few telecom segments that managed to survive the difficult year 2022 in a stable manner is wearables. With $13.9 billion (US $) in revenue, the wearables market achieved almost the same level in 2022 as in the previous year (minus 1.1% compared to 2021). Although popular segments have lost ground, this has been offset by growth in other product lines.

GfK also saw significant year-over-year (2022 vs. 2021) increases and declines in revenue in specific wearables categories:

• Health and Fitness tracker: -31%

• Smartwatches: +21%

• Wrist Sport Computers: -43%

These shifts have been driven by increasing consumer demand for greater control of their health, via smart features. Accordingly, wearables with a sleep tracking feature (plus 4%) or blood oxygen sensors (plus 20%) showed strong growth. This trend also led to innovations, such as the new feature of stress level measuring (EDA). Launched in the fourth quarter of 2021, these devices already account for 16% of revenue in the wearables market and continue to grow.

AR/VR headsets: First decline ever, but potential is still high:

Further hot topics for MWC are virtual reality (VR), augmented reality (AR), and the metaverse — made possible by devices such as VR headsets. While awareness and discussions around the metaverse have risen, retail sales of VR headsets in the European market* actually declined by 15% year-over-year in 2022. This is the first decline ever, as the market has previously recorded double-digit growth for years.

“The European market seems to have accomplished initial consumer penetration of VR headsets,” says Sohjin Baek, GfK expert for global IT hardware industry. “The industry should now focus on providing more content, as well as better visual quality and security, to drive the market based on this initial penetration. Convincing consumers about the use cases will be key to drive VR/metaverse forward.”

Outlook 2023:

GfK experts forecast a stronger year 2023 for the global Telecom market overall compared to the relatively weak 2022. At a regional level, China, which is the largest single market, is expected to pick up again and significantly drive global market growth. Additionally, developments within the three main product categories will have a positive impact:

  • Although replacement cycles are extending, smartphone purchases made at the height of the pandemic in 2020 and 2021 are entering the expected renewal cycle window this year.
  • In wearables the next generation of Health Tracking sensors, which will expand the scope of applications, will drive the market. In addition, positive revenue growth is expected for the smartwatches segment.
  • VR/AR is expected to become more tangible and grow into areas beyond gaming. This is one of the segments with the greatest potential in the coming years.

To remain competitive in the market and differentiate from competitors in terms of quality, retailers and manufacturers should continue to innovate for more powerful or faster devices that make consumers’ lives easier. “Innovation will further drive consumer’s demand,” says Jan Lorbach, GfK expert for the Telecom market. “When the holding time of smartphones is extending and budgets are tight, consumers will more than ever ask for value for money.”
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About the GfK method:

Through its retail panels, GfK regularly collects POS data in more than 70 countries worldwide for the consumer electronics, photography, telecommunications, information technology, office equipment, and small and large household appliances sectors. All figures are according to GfK panel market, with global data excluding North America and presented in US dollars. Revenues are presented in US dollars Non Subsidized Prices (NSP).

gfknewron is an always-on platform that combines market, consumer and brand data supercharged with AI-powered recommendations. It enables companies to gain actionable and connected insights and act at speed to ignite sustainable growth. The platform offers three specific modules: “gfknewron Market” for market and competitor insights, “gfknewron Consumer” for an in-depth consumer understanding and “gfknewron Predict” that delivers recommendations for companies based on market data and AI-powered intelligence.

* European market data include Belgium, Denmark, Finland, France, Germany, United Kingdom, Greece, Italy, Netherlands, Norway, Portugal, Russia, Spain, Sweden

U.S. media contact:  David Stanton +1 (908) 875-9844; [email protected]

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Separately,  ReportLinker forecasts that the Global IoT Telecom Services Market size is expected to reach $97.9 billion by 2028, rising at a market growth of 31.8% CAGR during the forecast period.  IoT protocols and 5G interconnection can broadcast information from thousands of devices to a large number of consumers without slowing communication speed or limiting capacity. The market for IoT telecom services is driven by these factors, which are anticipated to increase in the future. The growth of the IoT telecom services market is primarily driven by the increasing acceptance of technological advancement and innovation, as well as IoT-powered smart security cameras.

Based on connectivity, the IoT telecom services market is segmented into cellular technology, LPWAN, NB-IoT, and RF-based. In 2021, the LPWAN segment garnered a substantial revenue share in the IoT telecom service market. This is due to the widespread acceptance of the IoT telecom service market to strengthen LPWA Network (LPWAN) technologies, which offer a low-cost, low-power wireless option with global reach and robust security. In the telecom industry, machine-to-machine connections are crucial; for this, WiFi and GSM technologies are typically employed.

References:

https://www.gfk.com/press/telecom-global-trends-mwc

https://www.globenewswire.com/news-release/2023/02/22/2613477/0/en/The-Global-IoT-Telecom-Services-Market-size-is-expected-to-reach-97-9-billion-by-2028-rising-at-a-market-growth-of-31-8-CAGR-during-the-forecast-period.html

Allied Market Research: Global AI in telecom market forecast to reach $38.8 by 2031 with CAGR of 41.4% (from 2022 to 2031)

IDC: Global Telecoms Market at $1.53T in 2020; Meager Growth Forecast

 

 

Omdia forecasts weaker 5G market growth in near term, 4G to remain dominant

4G will remain the dominant mobile network technology until 2027, and continue to grow subscriber numbers through 2023, according to a new forecast from Omdia.  The Informa owned market research firm forecasts global 4G subscriptions will begin to decline from 2024 onwards, while retaining a majority share of all mobile connections until 2027.
5G subscriptions increased by 446 million in 2022 versus 592 million for 4G, thirteen years after 4G’s initial launch.  Omdia research has found that only 31% of mobile operators offered 5G in 2022. This is expected to rise to 59% by the end of 2023 with 4G expected to dominate for many years.

Multiple factors have slowed down the transition to 5G such as lower handset sales driven by cost-of-living crisis and inflation, poor network coverage, low performance gain perception, and lack of 5G specific applications. Furthermore, an increasing portion of mobile connections – approximately 30% – are not handsets and will be slower to convert to 5G (e.g., IoT, connected tablets/laptops, wearables).

Omdia Senior Market Forecaster, Garinder Shankrowalia, said: “5G subscription reporting in 2022 has led us to reduce our 2023 forecast by 7.2% -approximately 150 million subscriptions. We anticipate the industry will regain this loss from 2025, once global market conditions are improved.”

Omdia believes it is important for mobile operators to continue investing in next generation mobile networks to enable the application emergence and the overall digital economy to grow. However, having multiple cellular technologies running concurrently on mobile networks is having an adverse effect on operators whereby launching 5G increases complexity and cost for little return in the short term.

Omdia Research Director Ronan de Renesse said: “There needs to be a ‘net-zero’ approach to network development, removing the old as the new gets deployed.  Operators are already starting to move capital from next generation network deployment to 3G decommission projects and digital transformation.  Key stakeholders should remain realistic about the prospects for 5G and re-evaluate the business case before moving on to the next step.”

Omdia forecasts 5G will account for 5.9 billion subscriptions in 2027 equivalent to a population penetration of 70.9%.

Resources:

NTT DOCOMO & SK Telecom Release White Papers on Energy Efficient 5G Mobile Networks and 6G Requirements

Japan’s NTT DOCOMO and South Korean telecommunication operator SK Telecom (SKT) today announced their joint release of two white papers on energy-efficient 5G mobile networks and related technologies, as well as requirements for future 6G networks.  The release of the white papers is the first outcome of a basic agreement that NTT DOCOMO and SKT signed last November to explore opportunities for technical collaboration on next-generation telecommunication infrastructure technologies for 5G Evolution and 6G.
Editor’s Note: Neither ITU-R WP 5D or 3GPP has an approved document related to 6G network requirements.  The closest document is a work in progress at ITU-R WP 5D titled, “IMT Vision – Framework and overall objectives of the future development of IMT for 2030 and beyond.”
Regarding energy-efficient 5G mobile networks, the white paper reviews the following:

  • Possibilities to achieve greater energy savings based on energy consumption levels measured in the two companies’ respective base stations
  • Technical analysis of candidate energy-saving technologies, including both hardware and software
  • The roles that operators and equipment vendors should play, including the need for greater coordination, in the effort to achieve greater energy savings
Energy consumption of mobile network base stations
Energy consumption of mobile network base stations

For 6G, the paper reviews requirements and challenges including specific performance levels and implementation scenarios, focusing on technical issues of particular importance to mobile operators:

  • Performance requirements and implementation scenarios for each frequency band, taking into account the characteristics of each frequency
  • Issues concerning coverage and devices in high-frequency bands
  • Standardization for migration to 6G architecture and application of cloud-native / open architecture
Study of 6G Requirements
Study of 6G Requirements

Going forward, NTT DOCOMO and SKT will continue to collaborate in various technical fields, aiming to enhance the competitiveness and operational efficiency of 5G as well as support the global standardization and technical verification of 6G. They will also collaborate with global telecom operators on 6G standardization and R&D with the goal of building a global ecosystem that encompasses advanced industries and technologies.

“The white papers carry a significant meaning as they mark the first tangible result since entering into a strategic partnership with NTT DOCOMO last year,” said Yu Takki, Vice President and Head of Infra Tech Office of SKT. “Based on our experience and knowhow in 5G, we will continue to collaborate with world-leading operators such as NTT DOCOMO to lead 5G evolution towards 6G.”

Takehiro Nakamura, Chief Technology Architect, NTT DOCOMO, said: “We are delighted to jointly announce two white papers on green mobile networks and 6G requirements as our collaborative achievements with SKT started in November 2022. We will continue to enhance cooperation among the two major Asian mobile operators and promote superior concepts and innovative technologies to the world for the 6G deployment.”

AWS Integrated Private Wireless with Deutsche Telekom, KDDI, Orange, T-Mobile US, and Telefónica partners

In addition to Telco Network Builder, AWS today announced its Integrated Private Wireless that acts as an infrastructure bridge for network operators that want to offer a private network service tapping into AWS’ infrastructure to end users.  This allows AWS to connect incoming customers interested in a private network platform with the #1 cloud service provider’s telecom partners.

“We are really just connecting the customer with the telco, then that relationship is between the two of them,” said Jan Hofmeyr,VP of Amazon EC2.  Initial telecom partners include Deutsche Telekom, KDDI, Orange, T-Mobile US, and Telefónica.   Enterprise customers shopping for private wireless services will be able to purchase an installation from one of those participating operators. “The relationship is directly between the customer and the telco,” Hofmeyr said, noting that the resulting private wireless network will then run atop the AWS cloud.

Hofmeyr said that AWS’ goal is to provide customers with an easy set of options that will allow them to deploy or operate a private network in a manner that meets their needs and abilities.  “Right now this is their ask, [it’s] helping us make this onboarding easier, and that’s exactly what we’re focusing on.  In the future, we’ll continue to listen to what their needs are and continue to support that,” Hofmeyr added.

This new private network offering is different from AWS’ Private 5G platform that it initially unveiled in late 2021, and has since updated. That platform integrates small cell radio units, AWS’ Outposts servers, a 5G core, and radio access network (RAN) software running on AWS-managed hardware. AWS also handles the spectrum management of this service.

AWS will act as the portal, but telcos will be the managed service providers for the network on behalf of those enterprises or smaller service providers, the company said. As with the telco network builder, AWS will provide a dashboard for monitoring performance and modifying it as needed.

“That’s one of the friction points we saw as we started looking at the private network space,” said Ishwar Parulkar, chief technologist for the telco industry at AWS, in an interview. “There are a lot of enterprise customers who really don’t care about all of this. They just want to be able to use the network and run some applications on top. That’s one of the primary values that we bring with this: lifting that undifferentiated work away from them and managing it in the cloud.”

For Amazon, telcos represent a prime business opportunity: as carriers build new networks with increasing reliance on software and cloud services, Amazon is positioning itself as a tech and cloud partner to help run those services better and more cheaply.  It’s been interesting to watch how it has worked to build trust among a group of businesses that have at times been very wary of big tech and the threat of being reduced to “dumb pipes” as tech companies lean on their own architecture and technology advances to build faster and cheaper services that compete directly with what carriers have and plan to roll out. As one example, the company is clear to call these new products “offerings” and not services to make clear that it is not the managed service provider, the carriers’ role.

“We’ve been on this journey for a few years now in terms of really getting the cloud to run telco networks,” said Parulkar. “Our goal here is to make AWS the best place to host 5g networks for both public and private. And on that journey, we’ve been making steady progress.”

For carriers, they are now in a world where arguably communications is just another tech service, so many of them believe that running them with less costs and in more flexible ways will be the key to winning more business, introducing more services and getting better margins. Whether carriers want to wholesale work closer with Amazon, or with any of the cloud providers, for such services, will be the big question.

References:

https://www.sdxcentral.com/articles/news/aws-expands-5g-telecom-private-wireless-work/2023/02/

https://www.lightreading.com/mobile-world-congress/aws-deepens-product-set-for-public-private-networks/d/d-id/783319?

https://au.finance.yahoo.com/news/amazons-aws-cozies-carriers-launches-170645578.html

“There’s nothing like it;” AWS CEO announces Private 5G at AWS re-Invent 2021; Dish Network’s endorsement

 

AWS Telco Network Builder: managed service to deploy, run, and scale telco networks on AWS

AWS Telco Network Builder: managed network automation service to deploy, run, and scale telco networks on AWS

Amazon Web Services, Inc. (AWS) today announced the general availability of AWS Telco Network Builder, a fully managed service that helps customers deploy, run, and scale telco networks on AWS. Now, communications service providers (CSPs) can use their familiar telecom industry standard language to describe the details of their network (e.g., connection points, networking requirements, compute needs, and geographical distribution) in a template uploaded to the service.

AWS Telco Network Builder translates the template into a cloud-based network architecture and provisions the necessary AWS infrastructure, shortening the deployment of an operational, cloud-configured telco network from days to hours. As customers update their networks, AWS Telco Network Builder automatically adjusts compute and storage resources, allowing CSPs to focus on business operations and deliver new services.

AWS Telco Network Builder provides a centralized dashboard to monitor and manage the network running on AWS infrastructure – whether on premises or in AWS Regions. There are no upfront commitments or fees to use AWS Telco Network Builder, and customers pay only for the AWS services used to manage their network.

CSPs want to take advantage of the cloud’s performance, elasticity, and scale to build modern telco networks that support emerging use cases like smart cities, autonomous vehicles, and robotics. However, designing and scaling a telco network in the cloud can be a laborious, time-intensive process due to the iterative nature and breadth of network use cases, such as business support systems, mobile core, and radio networks. CSPs must first deploy and securely interconnect hundreds of specialized network functions (NFs)—containerized network appliances, like routers and firewalls—across dozens of vendors and thousands of locations, often hardcoding the infrastructure’s parameters when replicating across deployment locations.

Once the NFs are deployed, the CSP must update each NF individually to incorporate new software capabilities or make configuration changes, which is time-consuming work that strains resources. Building and running the network also requires skilled network architects with experience in cloud design and management. Additionally, CSPs must often purchase, setup, and maintain separate monitoring tools to observe the health of their on-premises and cloud-based infrastructures, making it challenging to obtain a complete view of their networks and address issues. As a result, CSPs can sometimes allocate too many resources to the undifferentiated heavy lifting of network management instead of focusing on innovating new experiences.

AWS Telco Network Builder is a fully managed network automation service that enables CSPs to deploy, run, and scale their telco networks on AWS faster and more easily. To start, a CSP populates their network architecture (e.g., routing requirements, location of deployment, specific NFs) as a template in the service’s console using telecom industry standard language, making it intuitive and easy to begin. AWS Telco Network Builder translates the customer’s network specifications into a cloud-based network architecture, streamlining programming requirements across multiple software vendors and accounting for the network’s geographic footprint. AWS Telco Network Builder automatically maps the provided topology to network services, provisions the necessary compute and storage resources, and connects the NFs to create an operational telco network. Customers can then reuse the uploaded templates to replicate that network architecture in new regions. As customers change their network configuration or run software updates, AWS Telco Network Builder handles lifecycle management for the NFs, performs updates to the NFs, and adjusts related infrastructure.

AWS Telco Network Builder is being sold to both public and private network operators, including those with existing network operations as well as those launching new networks.

Jan Hofmeyr, VP of Amazon EC2 said telcos those network functions in the format that telecom network operators have  can continue to run their networks in the way they have in the past, even as they shift network functions into the AWS cloud.  “It’s really an attempt to make it easier for them,” Hofmeyr said of the new product. “It doesn’t require them to be cloud experts on day one.”

Together, AWS Telco Network Builder and Amazon CloudWatch provide a comprehensive view of the NFs and AWS infrastructure, so customers can efficiently monitor and manage their networks to identify and remediate issues more quickly. AWS Telco Network Builder also integrates with popular third-party, end-to-end orchestrators for CSPs to maintain continuity across existing telco network operations and business systems. With AWS Telco Network Builder, customers only pay for the AWS products and services they use, so they can quickly scale their network based on business requirements.

“The telecom industry is undergoing a transformation as CSPs navigate building their telco networks in the cloud,” said Jan Hofmeyr, vice president of Amazon Elastic Compute Cloud (Amazon EC2). “Some of the biggest challenges CSPs face as they look to migrate include manually configuring and then managing these complex networks, which impedes growth and stifles innovation. Groundbreaking in the value it provides to the telecom industry, AWS Telco Network Builder removes the burden of translating a customer’s desired telco network into a cloud architecture, empowering them to easily modernize and quickly scale to meet demand while freeing time and capital to build new offerings, expand coverage, and refocus on invention.”

AWS Telco Network Builder is generally available today in U.S. East (N. Virginia), US West (Oregon), Asia Pacific (Sydney), Europe (Frankfurt), and Europe (Paris), and with availability in additional AWS Regions coming soon.

Amdocs is a leading provider of software and services to communications and media companies. “The current era of 5G cloud-based networks creates an opportunity for communications service providers to deliver accelerated value at unparalleled scale and efficiency,” said Anthony Goonetilleke, group president at Amdocs Technology. “Amdocs Intelligent Networking Suite takes advantage of AWS Telco Network Builder’s support of telecom interfaces to simplify service and network orchestration while bringing agility to network planning, deployment and operations.”

Cloudify is an open source, multi-cloud orchestration platform that packages infrastructure, networking, and existing automation tools into self-service environments. “We’ve observed the challenges the industry faces in bridging the gap between applications and cloud environments,” said Nati Shalom, CTO and founder of Cloudify. “Our work with AWS Telco Network Builder will help communications service providers more easily manage their network services by automating network planning, deployment, and operations activities using standard DevOps and IT service management tools. We are excited to use AWS Telco Network Builder to simplify the orchestration of network workloads using standard European Telecommunications Standards Institute-based interfaces.”

Infosys is a global leader in next-generation digital services and consulting. “The cloud’s scalability and efficiency are key to enabling innovation and reducing the complexity of managing telco network operations, which arms us with the tools to deliver new services for our end users continuously,” said Anand Swaminathan, executive vice president and global industry leader – Communications, Media, and Technology at Infosys. “As we look to build and operate cloud-based networks for our clients with Infosys Cobalt, we are excited to leverage AWS Telco Network Builder to increase the operational efficiency of mobile and private networks, ultimately enabling a streamlined operational model across Multi-G technologies.”

Mavenir is a network software provider building the future of networks with leading 4G, 5G, Core, and IP Multimedia Subsystem cloud-native software. “Managing 4G, 5G, Core, and IP Multimedia Subsystem networks is complex. Often these networks are distributed across the edge continuum,” said Bejoy Pankajakshan, chief strategy officer at Mavenir. “AWS Telco Network Builder allows us to create repeatable network templates that speed up the definition, provisioning, deployment, and upgrading of network services for our customers. The collaboration between Mavenir and AWS offers customers flexibility and agility in the deployment of network functions, furthering us toward our goal of building a single, software-based automated network.”

O2 Telefónica is a leading telecommunications provider in Germany, with around 47 million mobile telephone lines and 2.3 million broadband lines. “As we transition our telco network to the cloud, we strive to achieve greater operational simplicity while accelerating the roll-out of our network and services,” said Bas Hendrikx, head of Cloud Center of Excellence at O2 Telefónica. “We are exploring AWS Telco Network Builder to enable us to leverage automation to deliver new 5G network services faster and manage our networks more efficiently. At O2 Telefónica, we are committed to shaping digital change that benefits everyone, and our investments in building cloud-native networks and using AWS services help to provide greater value and performance to our customers.”

Dish Network in the U.S., Swisscom in Switzerland, and Spark in New Zealand are among the operators that have agreed to put their 5G SA core network functions into the AWS cloud.

To learn more, visit aws.amazon.com/tnb

References:

https://www.businesswire.com/news/home/20230221005644/en/AWS-Announces-AWS-Telco-Network-Builder

https://www.lightreading.com/mobile-world-congress/aws-deepens-product-set-for-public-private-networks/d/d-id/783319?

 

Communications Minister: India to be major telecom technology exporter in 3 years with its 4G/5G technology stack

Despite being very late to deploy 5G due to tardy licensed spectrum auctions, and with no known indigenous 5G network equipment vendors,  India’s Communications Minister Ashwini Vaishnaw believes the country’s indigenous 4G/5G technology stack is “now ready” and the country is poised to emerge as a major telecom technology exporter to the world in the coming three years.  Speaking at the Economic Times Global Business Summit 2023, Vaishnaw, who is also the Minister for Railways, categorically said there is no program for the privatization of the national transporter.

The 5G services were launched on October 1, 2022, and within a span of 100 days have been rolled out in 200-plus cities. The sheer speed of rollout has been appreciated by industry leaders globally and is being described in many international forums as the “fastest deployment happening anywhere in the world,” he said.  Vaishnaw highlighted the population-scale solutions being tested on India stack, across platforms such as payments, healthcare and identity. Each of these platforms is powerful in itself, but together become a dynamic force that can solve “any major problem in the world.”

The minister said India is set to emerge as a telecom technology exporter to the world in the next three years.  “Today there are two Indian companies that are exporting to the world…telecom gear. In the coming three years, we will see India as a major telecom technology exporter in the world,” Vaishnaw said.

The minister talked of the rapid strides taken by India in developing its own 4G and 5G technology stack, a feat that caught the attention of the world.  “The stack is now ready. It was initially tested for 1 million simultaneous calls, then for 5 million, and now it has been tested for 10 million simultaneous calls,” he said terming it a “phenomenal success.”  At least 9-10 countries want to try it out, he added.

The minister gave a presentation outlining key initiatives under his three ministries of telecom, IT and Railways. For Railways, the focus is on transforming passenger experience, he said as he presented slides on how railways is redeveloping stations and terminals (New Delhi, Ahmedabad, Kanpur, Jaipur among others) with modern and futuristic design blueprint, and in the process creating new urban spaces while also preserving rich heritage.

The minister also gave an overview on the Vande Bharat train, the indigenous train protection system Kavach and progress on the bullet train project.  To a question on the past talks around private freight rail corridors to boost logistics, the minister said “there is no program for Railway privatization.”  “In a country where we have 1.35 billion people, 8 billion people moving every year on Railways, we thought that it is prudent to learn from the experience of others, and keep it within the Government set-up,” Vaishnaw said.

India’s Communications Minister Ashwini Vaishnaw  (Photo Credit: PT)

To another query on dedicated freight corridor for food grains, the minister explained that when it comes to transport economics it is important not to divide assets between different applications.

“Today, the thought process has got very refined, and we are adding close to 4500 km of network every year, which amounts to 12 km of new tracks per day. So we have to increase the capacity to such a large extent that there is enough capacity for food grains, enough for coal, small parcels, and every kind of cargo,” he said.  While Railways had been consistently losing market share over the last 50-60 years, it has started clawing it back.

“The lowest point was 27 per cent. I am happy to share that from the 27 per cent level, last year Railways increased to 28 per cent, this year we are doing close to 29-29.5 per cent, and in the coming 2-3 years Railways will go towards 35 per cent market share,” he added.

People will choose between transport via road, railways or air based on the distance to be travelled, and “there will be enough for everybody”. “The country will have enough for everybody, is my point. Up to 250 kilometres road is very good, 250 to 1000 kilometres railway is the ideal mode. Beyond 1000 kilometres air will be the ideal mode. So there will be enough for everybody,” the minister said.

 

References:

https://www.thehindu.com/business/4g5g-tech-stack-now-ready-india-to-be-major-telecom-technology-exporter-in-3-years-ashwini-vaishnaw/article66526308.ece

 

Info-Tech: Cloud Network Design Must Evolve to Meet Both Current and Future Organizational Needs

Cloud adoption among organizations has increased dramatically over the past few years, both in the range of services used and the extent to which they are employed. However, network builders tend to overlook the vulnerabilities of network topologies, which leads to complications down the road, especially since the structures of cloud network topologies are not all of the same quality. To help organizations build a network design that suits their current needs and future state, global IT research and advisory firm Info-Tech Research Group has published its latest advisory deck, Considerations for a Hub and Spoke Model When Deploying Infrastructure in the Cloud.

The new research deck states that for organizations considering migrating their resources to the cloud, careful planning and decision making is required. This includes selecting the right topology, designing the cloud infrastructure for efficient management, and providing access to shared services. The advisory deck further highlights that one of the main challenges of cloud infrastructure planning is finding the right balance between governance and flexibility, which is often overlooked.

“Evaluating and selecting the right cloud network topology is crucial for optimizing performance. It also enables easier management and resource provisioning,” says Nitin Mukesh, senior research analyst at Info-Tech Research Group. “An ‘as the need arises’ strategy will not work efficiently since network design changes can significantly impact data flows and application architectures, which becomes more complicated as the number of cloud-hosted services grows. Designing a network strategy early on will give more control over networks and prevent the need for significant infrastructure changes later.”

Info-Tech’s research indicates that when organizations move to the cloud, many often retain the mesh networking topology from their on-prem design, or they choose to implement the mesh design using peering technologies in the cloud without considering the potential changes in business needs. Although there are various network topologies for on-prem infrastructure, the network design team may not be aware of the best approach in cloud platforms for their requirements, or a cloud networking strategy may even go overlooked during the migration.

The new resource explores a hub and spoke model for organizations deciding between governance and flexibility in network design. A hub and spoke network design involves connecting multiple networks to a central network, or a hub, that facilitates intercommunication between them. The hub can be used by multiple workloads for hosting services and managing external connectivity.

Other networks connected to the hub through network peering are called spokes and host workloads. Communications between workloads, servers, or services on the spokes pass through the hub, where they are inspected and routed. The spokes can be centrally managed from the hub using IT rules and processes. This design allows for a larger number of virtual networks to be interconnected, with only one peered connection needed to communicate with any other network in the system.

Organizations that choose to deploy the hub and spoke model face a dilemma in choosing between governance and flexibility for their networks. Info-Tech recommends that organizations consider the following design options when developing a cloud network strategy:

  1. PEERING: Peering Virtual Private Clouds (VPCs) into a mesh design can be an easy way to get onto the cloud, but it shouldn’t be the networking strategy for the long run.

  2. HUB AND SPOKE: Hub and spoke network design offers more benefits than any other network strategy to be adopted only when the need arises. Organizations should plan for the design and strategize to deploy it as early as possible.

  3. HYBRID: A mesh and hub and spoke hybrid can be instrumental in connecting multiple large networks, especially when they need to access the same resources without having to route the traffic over the internet.

  4. GOVERNANCE VS. FLEXIBILITY: Governance vs. flexibility should be a key consideration when designing for hub and spoke to leverage the best out of the infrastructure.

  5. DOMAINS: Distribute domains across the hub or spokes to leverage costs, security, data collection, and economies of scale and foster secure interactions between networks.

The firm advises that the advantages of using a hub and spoke model far exceed those of using a mesh topology in the cloud. However, organizations, especially large ones, are complex entities, and choosing only one model may not serve all business needs. In such cases, a hybrid approach may be the best strategy.

To learn more, download the complete Considerations for a Hub and Spoke Model When Deploying Infrastructure in the Cloud advisory deck.

About Info-Tech Research Group:

Info-Tech Research Group is one of the world’s leading information technology research and advisory firms, proudly serving over 30,000 IT professionals. The company produces unbiased and highly relevant research to help CIOs and IT leaders make strategic, timely, and well-informed decisions. For 25 years, Info-Tech has partnered closely with IT teams to provide them with everything they need, from actionable tools to analyst guidance, ensuring they deliver measurable results for their organizations.

Media professionals can register for unrestricted access to research across IT, HR, and software and over 200 IT and Industry analysts through the ITRG Media Insiders Program. To gain access, contact [email protected].

SOURCE Info-Tech Research Group

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References:

https://www.prnewswire.com/news-releases/cloud-network-design-must-evolve-to-meet-both-current-and-future-organizational-needs-says-info-tech-research-group-301750240.html

For more information about Info-Tech Research Group or to access the latest research, visit infotech.com and connect via LinkedIn and Twitter.

European Space Agency & UK Space Agency chose EnSilica to develop satellite communications chip for terminals

UK based EnSilica, a fabless ASIC and mixed signal chip maker, has announced a contract to develop a new chip to address the next generation of mass market satellite broadband user terminals.

The contract has been awarded through the European Space Agency’s (ESA) Advanced Research in Telecommunications Systems Core Competitiveness program (“ARTES CC”), through the support of the UK Space Agency. 

The chip in development will enable a new generation of lower-cost, low-power satellite broadband user terminals, which track the relative movement of low-earth orbit satellites and allow users to access high bandwidth connectivity when out of reach of terrestrial networks.

Use cases include satellite communication-on-the-move (SOTM) for automotive, maritime, and aerospace connectivity as well as extending broadband access to users without internet access. 

Dietmar Schmitt, Head of Technologies & Products Division at ESA, said ESA is pleased to continue our collaboration with EnSilica through the ARTES Core Competitiveness programme and to support this important technology development, which will facilitate the provision of high capacity connectivity across a wide range of use cases.”

Henny Sands, Head of Telecoms at the UK Space Agency, described EnSilica’s satellite broadband user terminals chip as “a brilliant example of the diversity of expertise in the UK’s leading satellite communications sector.”

Henny added: “Through the ARTES CC programme the UK Space Agency aims to champion UK companies that have the right expertise and ambition to become global players in this market and lead on ground-breaking technologies that will enhance the wider UK space sector, create jobs and generate further investment. That’s why we recently announced £50 million of funding for ambitious and innovative projects that will supercharge the UK’s satellite communications industry.”

Paul Morris, VP RF and Communications BU, commented“We are delighted to be continuing our successful partnerships with both UKSA and ESA to further develop innovative semiconductor solutions for the next generation of satellite broadband user terminals.”

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About EnSilica:

EnSilica is a leading fabless design house focused on custom ASIC design and supply for OEMs and system houses, as well as IC design services for companies with their own design teams. The company has world-class expertise in supplying custom RF, mmWave, mixed signal and digital ICs to its international customers in the automotive, industrial, healthcare and communications markets. The company also offers a broad portfolio of core IP covering cryptography, radar, and communications systems. EnSilica has a track record in delivering high quality solutions to demanding industry standards. The company is headquartered near Oxford, UK and has design centres across the UK and in India and Brazil.

Recent ASICs and Case Studies:

  • 40nm Ka-band transceiver and beamformer for satellite terminals
  • 180nm BCD H-bridge controller for automotive chassis control
  • 55nm low-power mobile phone sensor interface
  • 180nm BCD industrial MCU for safety critical applications
  • 180nm BCD multi-channel 2GHz phase controller 600nm gyro sensor amplifier
  • 28nm audio processor for smart microphone
  • 28nm multi-standard GNSS receiver
  • 40nm multi-standard analog and digital broadcast receiver
  • 40nm 60GHz Radar sensor 65nm medical vital signs sensor with 2.4GHz radio
  • 40nm NFC energy harvesting processor

About ESA’S ARTES Core Competitiveness Program:

ESA’s ARTES (Advanced Research in Telecommunications Systems)

 program is unique in Europe and aims to support the competitiveness of European and Canadian industry on the world market. Core Competitiveness is dedicated to the development, qualification and demonstration of products (“Competitiveness and Growth”), or long-term technology development (“Advanced Technology”). Products in this context can be equipment for the platform or payload of a satellite, a user terminal, or a full telecom system integrating a network with its space segment.

More at https://artes.esa.int/core-competitiveness

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