China Mobile reports 9.5% increase in sales; depreciation and electricity expenses will increase at relatively high rates
China Mobile is the world’s largest wireless network operator by customers, serving 940 million total subscribers in the Q1 2021. The #1 China carrier had 189 million 5G customers a March, an increase of 24 million since December. Its 4G-LTE use base also grew during Q1 2021, up 36 million year-on-year to 788 million.
China Mobile reported a 9.5% year-on-year increase in sales, to 198.4 billion Chinese yuan ($30.6 billion), for its first quarter of 2021. China Mobile’s net profit increased by 2.3% to about RMB24.1 billion ($3.7 billion).
The company states that continued to devote concerted efforts to promoting digitalized and intelligent transformation and achieving high-quality development. Placing a special focus on its “4×3” strategic core and fully implementing the “5G+” plan, it managed to maintain stable growth in key business performance indicators and delivered sound development momentum, taking solid steps towards becoming a world-class enterprise by building a dynamic “Powerhouse.”
China Mobile Chairman Yang Jie said following its large-scale 5G network deployment, it expects corresponding depreciation and electricity expenses to increase at relatively high rates.
Following the large scale operation of 5G, the China Mobile Group expects the corresponding depreciation and electricity expenses will increase at relatively high rates. As the Group scales up the development of DICT and other information services, the demand for resources to address the need for business transformation and upgrade will remain robust.
Facing these challenges and pressure, the Group will continue to explore new sources to increase revenue, and at the same time take measures to lower costs and enhance efficiency. It will also precisely allocate resources by adhering to the principle of ensuring a sufficient budget for areas essential to promote growth, while reducing and controlling expenses on certain selected areas.
While fostering business transformation, promoting innovation and nurturing new areas of growth, the Group will strive to achieve stable and healthy growth in telecommunications services revenue and net profit, maintain good profitability and continuously create value for investors.
China Mobile said it was under pressure to make other cutbacks to cope with the increase in electricity fees and depreciation charges in 2020.
China Mobile’s The revenue growth was mainly due to a 67 per cent increase in handset sales to CNY20.8 billion, which the operator credited to a wider range of 5G models at more affordable prices. Telecoms service turnover increased 5.2 per cent to CNY177.7 billion.
Total subscribers fell by 6 million to 940 million. ARPU edged up 1.1 per cent to CNY47.40, while average monthly data usage increased 34.9 per cent to 11.2GB. The volume of total voice minutes increased 8.3 per cent and SMS usage dropped 12.6 per cent.
China Mobile also faces a huge capital expenditure bill this year as it extends 5G services outside the big cities and into less densely populated communities. It plans to spend RMB183.6 billion ($28.3 billion) in total, up from RMB180.6 billion ($27.8 billion) last year. In its last annual report, it said that approximately RMB110 billion ($17 billion) would go toward 5G rollouts.
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References:
https://www.chinamobileltd.com/en/file/view.php?id=246145
https://www.lightreading.com/5g/china-mobile-warns-of-mounting-5g-costs/d/d-id/768941?
Telenor trial of multi-vendor 5G Standalone (SA) core network on vendor neutral platform
Telenor Group [1.] today said it has established a 5G standalone core network environment using a vendor-neutral platform, with network functions from Oracle, Casa Systems, Enea and Kaloom, all running on Red Hat Openshift. It has deployed Palo Alto Networks Prisma Cloud Compute protection and a 5G New Radio (NR) cellular transmission system from Huawei. Telenor said its 5G standalone (SA) trial using commercially available components proves that a multi-vendor environment is possible.
Note 1. Telenor Group is a Norwegian majority state-owned multinational telecommunications company headquartered at Fornebu in Bærum, close to Oslo, Norway.
The Palo Alto Networks Next Generation Firewall is being used to securing internet connectivity for mobile devices, said Telenor. Red Hat’s Ansible Platform is being used as a scalable automation system, and Emblasoft is providing automated network testing capabilities. The Norwegian Armed Forces have tested Security as a Service enabled by the multi-vendor set-up, it added.
Patrick Waldemar, vice president and head of technology at Telenor Research, said:
“The main component of 5G-SA is the 5G mobile core, the ‘brain’ of the 5G system. Unfortunately, most 5G core deployments are still single vendor dependent, with strong dependencies on that vendor’s underlying proprietary architecture. This single-vendor dependency can be a killer for innovation. It restricts open collaboration from the broader 5G ecosystem of companies developing new technology, use cases, and services that the market expects.”
“To protect the 5G infrastructure from cyber threats, we deployed Palo Alto Networks Prisma Cloud Compute, and their Next Generation Firewall is also securing Internet connectivity for mobile devices. Red Hat Ansible Automation Platform is being used as a scalable automation system, while Emblasoft is providing automated network testing capabilities. The 5G New Radio (NR) is from Huawei,” says Waldemar.
Telenor’s 5G-SA trial, with commercially available components, demonstrates that a truly multi-vendor environment is possible. However, this author has doubts that a multi-vendor 5G SA core network will go into production anytime soon.
“We believes that such a multi-vendor environment will stimulate innovation, reduce cost of the infrastructure, increase competition and accelerate the development of an open 5G-ecosystem which in turn will enable a range of new services for Telenor’s consumers, industry and government customers,” says Waldemar.
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Heavy Reading Survey:
One of the key choices for a 5G cloud native core network is between infrastructure-as-a-service (IaaS) and platform-as-a-service (PaaS).
A Heavy Reading “Cloud-Native 5G Core Operator Survey” published in March 2021 identifies a preference for an IaaS model (45%) over PaaS (32%) and vendor-integrated full stack (23%). Larger operators, however, prefer PaaS.
Respondents working for operators with revenue of more than $5 billion annually are somewhat more likely to select PaaS, with a score of 44% versus 41% for IaaS and 16% for the vendor full stack. Conversely, respondents working for operators with revenue of less than $5 billion reported a score 23% for PaaS, 49% for IaaS and 28% for the vendor full stack. This difference reflects corporate cloud technology strategies and, to some extent, the internal capabilities of the operator’s technology team.
Source: Heavy Reading
The overall picture, according to the survey, is that both PaaS and IaaS models are likely to be used over the near and medium terms. This accords with Heavy Reading’s understanding that both models are already in use, in production, for 5G core. Nevertheless, Heavy Reading expect the PaaS model and the container as a service (CaaS) variant to prevail over the longer term, especially as 5G core workloads move closer to the edge.
For more information contact:
Stian Kristoffer Sande, Communication Manager, Telenor Group [email protected]
References:
https://www.telecompaper.com/news/telenor-runs-5g-sa-trial-of-multi-vendor-core-on-red-hat–1380126
https://www.lightreading.com/5g/cloud-infrastructure-for-5g-core/a/d-id/768873?
Aviat Sells TIP compliant 5G-Ready Disaggregated Transmission Network to Africell
Austin, TX based Aviat Networks has announced an agreement to provide Africell with a 5G-ready disaggregated transmission network in several African countries. The new network will be designed, installed and maintained by Aviat. It will include Aviat’s WTM 4000 and WTM 4800 multi-band point-to-point radios and CTR microwave switches, and TIP (Telecom Infra Project) compliant disaggregated cell site gateways (DCSGs). The DCSGs are Edgecore Networks running IP Infusion’s OcNOS® network operating system. The deployment, which will occur in Q2 2021, is Africell’s first Telecom Infra Project (TIP)-compliant DCSG endeavor.
Editor’s Note: The DCSG offers an open, disaggregated, and software-controlled option for supporting mobile services roll outs, including for 5G. In 2019, Telefónica announced the deployment of Infinera’s TIP compliant DCSG product. Telefónica Peru will deploy Infinera’s DRX-30 hardware and Converged Network Operating System (CNOS) software to support 4G and 5G infrastructure as well as fixed services.
“Leading mobile operators like Africell recognize the operational advantages of a disaggregated solution and how its flexibility will enable the rapid delivery of broadband services,” said Peter Smith, CEO of Aviat Networks. “We are proud that Africell has placed its confidence in Aviat to meet the challenge of their first TIP-compliant DCSG project.”
“With escalating demand for high-speed mobile Internet services in our markets, and with 5G in our sights, we sought an approach that offers us fast deployment, maximum flexibility, and lowest TCO,” said Younes Chaaban, Africell’s Chief Technical Officer. “Aviat’s backhaul and DCSG solution was the clear choice to meet all these challenges and support the rapid network growth of our transmission network well into the future.”
About Aviat Networks
Aviat Networks, Inc. is the leading expert in wireless transport solutions and works to provide dependable products, services and support to its customers. With more than one million systems sold into 170 countries worldwide, communications service providers and private network operators including state/local government, utility, federal government and defense organizations trust Aviat with their critical applications. Coupled with a long history of microwave innovations, Aviat provides a comprehensive suite of localized professional and support services enabling customers to drastically simplify both their networks and their lives. For more than 70 years, the experts at Aviat have delivered high performance products, simplified operations, and the best overall customer experience. Aviat Networks is headquartered in Austin, Texas. For more information, visit www.aviatnetworks.com or connect with Aviat Networks on Twitter, Facebook and LinkedIn.
About Africell
Africell is one of the fastest growing mobile operators in Africa. The company currently operates in four countries – The Gambia, Sierra Leone, Democratic Republic of Congo, and Uganda. Africell will launch operations in a fifth country, Angola, in 2021. http://www.africell.com
Media Contact: Gary Croke, Aviat Networks, Inc., [email protected]
Investor Relations Contact: Keith Fanneron, Aviat Networks, Inc., [email protected]
SOURCE Aviat Networks, Inc.
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Performance analysis of big 3 U.S. mobile operators; 5G is disappointing customers
Speedtest Intelligence® from Ookla reveals T-Mobile was the fastest mobile operator in the United States during Q1 2021 with a Speed Score™ of 50.21 on modern chipsets. AT&T was second and Verizon Wireless third.
Note that this is the first quarter Ookla is reporting on the country as a whole, rather than using competitive geographies. Ookla says that expanding its focus to include rural areas will show drops in performance, decreasing speed and increasing latency when compared with prior reports.
In Q1 2021, T-Mobile had the fastest median 5G network download speed in the U.S. at 82.35 Mbps. AT&T was second at 76.60 Mbps and Verizon Wireless third at 67.24 Mbps. For a complete view of commercially available 5G deployments in the U.S. to-date, visit the Ookla 5G Map™.
Ookla discovered that during Q1 2021 that T-Mobile subscribers with 5G-capable devices were connected to a 5G service 65.4% of the time. 5G “time spent” on Verizon Wireless’ network was at 36.2% and at 31% on AT&T’s network.
In measuring each operator’s ability to provide consistent speeds, Ookla found that T-Mobile had the highest Consistency Score™ in the U.S. during Q1 2021, with 84.8% of results showing at least 5 Mbps download and 1 Mbps upload speeds. AT&T was second and Verizon Wireless third. All three U.S. mobile carriers were above 80% in terms of consistency.
Here’s the current status of Worldwide median 5G Speeds as of Q3-2022:
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Earlier this week a new report from becnhmarking company Rootmetrics found that T-Mobile US is leading in 5G availability across U.S. cities. Rootmetrics found that AT&T’s 5G provides the best performance, and AT&T and Verizon both won high marks for 5G reliability.
“While we’ve seen strong and improving 5G availability and speeds from the carriers in many cities, it’s important to keep in mind that with the major U.S. networks utilizing different types of spectrum for 5G, the 5G availability and speeds that consumers experience can vary a great deal for different carriers across or even within different markets,” Rootmetrics concluded.
Rootmetrics tested 5G networks in 45 cities across the U.S. between January and March of this year. It recorded at least some 5G availability from all three carriers in nearly all of them. T-Mobile US was the only carrier with a 5G network presence in all 45 of the cities, AT&T had 5G service in 44 out of the 45, and Rootmetrics saw 5G availability for Verizon in 43 out of the 45 cities.
The availability of T-Mobile’s 5G was one common theme across both testing reports. Rootmetrics’ testing, conducted in the first half of 2021, said that T-Mobile had 5G availability in all 45 of the markets it tested and showed the highest percentages of 5G availability in the most markets: More than 55% availability in 30 markets, with the lowest tested market being Sarasota, FL, where Rootmetrics’ testing showed T-Mo 5G available for a device to connect to only about 19% of the time.
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Separately, Light Reading’s Mike Dano writes that “AT&T, Verizon and T-Mobile offer unlimited 5G disappointment.” In a subhead titled, “T-Muddle” Dano writes:
In 2019, T-Mobile boasted that “5G speed will be up to 10x faster, compared to LTE.” But when it first launched its 5G network on its lowband 600MHz spectrum, speeds were only 20% faster than its LTE network. Then, after T-Mobile closed its acquisition of Sprint’s 2.5GHz midband spectrum, it quickly began offering 5G speeds up to 1Gbit/s. The operator even debuted a new 5G lexicon for its offerings: “5G Ultra Capacity” refers to its speedy 2.5GHz network, while “Extended Range 5G” refers to its slower 600MHz network.
So it would stand to reason that customers might want to see which flavor of T-Mobile 5G they can access, right? A quick check of T-Mobile’s coverage map reveals none of these details. The operator only offers a generic “5G” coverage layer that does not provide details about whether it’s 600MHz or 2.5GHz. One is slightly faster than LTE while the other provides average speeds of 300Mbit/s. Prospective T-Mobile customers are left in the dark.
T-Mobile isn’t the only operator seemingly content to hide behind 5G obfuscation. AT&T has debuted no fewer than three different 5G brands – 5G+, 5Ge and 5G – yet it does not offer any details to prospective customers about how it might charge for those offerings. The operator’s pricing plans mention only “5G” and do not specify whether that means 5G+, 5Ge or 5G, or all three.
Regarding Verizon’s 5G pricing plans, Dano stated:
The operator offers a truly dizzying array of 5G plans and pricing options – one observer described Verizon’s pricing plans as “a series of nesting dolls.”
In 5G, Verizon is reserving its faster “Ultra Wideband” technology only for its expensive unlimited plans. Customers on its cheapest Start Unlimited plan can either pay $10 extra for 5G specifically, or they can spend that same $10 to upgrade to a more expensive unlimited plan that offers 5G as well as other goodies, such as more mobile hotspot data. Why the two different upgrade options? “We always like to give customers choices,” explained a Verizon spokesperson.
But what that really means is that customers are simply left to fend for themselves. They’re left to pick from among a dizzying number of pricing options, all promising “unlimited” data, but all limiting that data in various ways. Customers are left to figure out why messages from iPhones to Android phones won’t show delivery receipts. They’re left to discover why they’re still receiving robocalls, and what they might need to do to block them. They’re left to uncover what kind of 5G they can get and whether it’s any different from 4G.
In conclusion, Dano says that “AT&T, Verizon and T-Mobile continue to be very interested in outdoing one another in their 5G pricing schemes and big, new network claims.” However, they’re not succeeding in pleasing their customers who remain frustrated and disappointed.
Cartoon courtesy of long time IEEE contributor Geoff Thompson:
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References:
https://www.speedtest.net/global-index/united-states#market-analysis
https://rootmetrics.com/en-US/content/5g-in-the-us-1H-2021
3 South Korean mobile operators to share 5G networks in remote areas
The big three South Korean mobile operators – SK Telecom, KT and LG Uplus -have agreed to share their 5G networks in 131 remote locations across the country, Yonhap news agency reported. According to the Ministry of Science and ICT. the initiative is designed to accelerate the rollout of 5G networks across the country.
Under the plan, a 5G user would be able to use other carrier networks in such regions that are not serviced by their carrier. The ministry said telecom operators will test the network sharing system before the end of this year and aim for complete commercialization in phases by 2024.
The ministry said the selected remote regions are sparsely populated, with a population density of 92 people per square kilometer, compared with those without network sharing at 3,490 people per square kilometer.
The move comes as the country races to establish nationwide 5G coverage, with network equipment currently installed in major cities. The big three South Korean telecom operators promised in July 2020 to invest up to 25.7 trillion won (US$23.02 billion) to update their network infrastructure by 2022.
South Korea was the world’s first country to commercialize 5G in April 2019. As of February 2021, the country had 13.66 million 5G subscriptions, after a net addition of 792,118 subscribers during the month. That’s 19 percent of its total mobile users. SK Telecom had the largest number of 5G subscribers at 6.35 million, followed by KT Corp. at 4.16 million and LG Uplus at 3.15 million.
According to data from the Ministry of Science and ICT, a big boost in 5G subscriptions during the first two months of the year was chiefly due to the popularity of Samsung Electronics’ latest flagship Galaxy S21 smartphones, which already surpassed 1 million units in domestic sales last week. The country’s three carriers are seeking faster adoption of 5G across the country and have announced more affordable 5G plans to promote the adoption of the technology.
South Korean telecom operators currently provide 5G services via non-standalone 5G networks, which depend on previous 4G LTE networks. The country’s three operators launched 5G technology in April 2019, and 5G networks are available mostly in large cities.
SK Telecom, KT and LG Uplus are currently preparing to commercialize new technology, such as Standalone versions of the 5G networks and millimeter-wave 5G.
References:
https://en.yna.co.kr/view/AEN20210415002500320
AT&T Exec: 5G Private Networks are coming soon + 5G Security Conundrum?
Just two weeks after Verizon won a 5G Private Network contract in the UK, AT&T now says that Private 5G Networks are coming soon to your office or campus. AT&T’s Rita Marty wrote in a blog post that many companies want “5G in a private space.”
“We’ve done exactly that at AT&T Stadium in Dallas. Fans will get experiences like live stats projected over the field on their smartphone camera.”
“Some organizations want a truly private, standalone 5G system. They envision full control of a “local area network” similar to corporate Wi-Fi, but with the performance, reliability and security of cellular. Nellis Air Force Base in Nevada is testing one flavor: a 5G-powered command-and-control center on a trailer. It will form the hub of a moveable, private cellular network for local personnel in a conflict area.
Ms. Marty alluded to network slicing and edge computing in her blog post. Those are two ultra hyped technologies that have yet to be deployed at scale by any 5G network operator.
“Other organizations are enhancing their 5G coverage with the ability to control specific local traffic themselves. They can peel off (via network slicing) certain data flows for “edge computing.” This means alarms in a factory, for instance, could be processed right on the premises – and thus much more quickly. MxD, a manufacturing innovation center in Chicago, is showing how fractions of seconds can help solve quality, safety and inventory issues.
Network slicing allows 5G network operators to create different sub-networks (which can be private) networks with different properties. Each sub-network slices the resources from the physical network to create its own independent, no-compromised network for its preferred applications. It requires a 5G standalone core network, the implementation of which has not been standardized and AT&T has yet to deploy.
Most of AT&T’s activities in mobile edge computing and private 5G networks are in trials and testing. AT&T is working to bring enhanced capabilities to their edge computing solutions by testing AT&T Network Edge (ANE) with cloud providers. AT&T says ANE’s potential benefits include:
- Lower latency: Deliver low-latency connectivity to high performance compute
- Network routing optimization: Network integration with cloud providers
- Extended cloud ecosystem: AT&T intends to develop an extended ANE ecosystem, allowing customers to use cloud services like they do today.
Image Credit: AT&T
Private networks also need careful thought and consultation, Ms. Marty stated. “Considerations include design, spectrum, and who’s going to actually run it. Even a standalone network, and even 5G, must be set up properly to achieve the highest security against cyberattacks,” she added.
5G Security Conundrum:
As leader of AT&T’s 5G security team, Ms. Marty has her work cut out for her. Especially considering choosing which of the 3GPP 5G SA security specs to support. Many of them are not complete and targeted for 3GPP Release 17. Also, European network operators have taken different approaches to 5G security and this will likely be a global phenomenon.
The real work on 5G security is being done by 3GPP with technical specification (TS) 33.501 Security architecture and procedures for 5G system being the foundation 5G security document. That 3GPP spec was first published in Release 16, but the latest version dated 16 December 2020 is targeted at Release 17. You can see all versions of that spec here.
3GPP’s 5G security architecture is designed to integrate 4G equivalent security. In addition, the reassessment of other security threats such as attacks on radio interfaces, signaling plane, user plane, masquerading, privacy, replay, bidding down, man-in-the-middle and inter-operator security issues have also been taken in to account for 5G and will lead to further security enhancements.
Another important 3GPP Security spec is TS 33.51 Security Assurance Specification (SCAS) for the next generation Node B (gNodeB) network product class, which is part of Release 16. The latest version is dated Sept 25, 2020.
Here’s a chart on 3GPP and GSMA specs on 5G Security, courtesy of Heavy Reading:
Scott Poretsky, Ericsson’s Head of Security, wrote in an email:
“The reason for the inconsistent implementation of the 5G security requirements is the language in the 3GPP specs that make it mandatory for vendor support of the security features and optional for the operator to decide to use the feature. The requirements are defined in this manner because some countries did not want these security features implemented by their national telecoms due to these security features also providing privacy. The U.S. was not one of those countries.”
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References:
https://about.att.com/innovationblog/2021/private_5G_networks.html
https://www.business.att.com/learn/top-voices/att-continues-development-of-network-edge-compute.html
https://techblog.comsoc.org/2018/05/18/ieee-comsoc-papers-on-network-slicing-and-5g/
5G Security Issues Raise Mission Critical Questions & Issues
Verizon makes 5G Business Internet (FWA) available in 24 U.S. cities
Verizon Business plans to expand its 5G Business Internet fixed-wireless connectivity offering to 21 new U.S. cities this month. The service uses Verizon’s 5G Ultra Wideband technology as its connectivity backbone. Offerings include 100, 200, and 400 Mbps plans serving large companies and SMEs, with no data limits. Verizon said it will also give a 10 year price lock for new customers, no long-term contract required.
- Verizon 5G Business Internet is now available for businesses of all sizes in 24 U.S. cities.
- The fixed-wireless offering is an alternative to cable, with multiple pricing and service options and no data limits.
- Verizon offers a price lock for 10 years, no long-term contract required, and professional installation included.
- According to the Verizon 5G Business Report, business decision-makers largely agree that 5G will create new opportunities for their company (80%), their industry (79%), and their role (79%).
“As 5G Business Internet scales into new cities, businesses of all sizes can gain access to the superfast speeds, low latency and next-gen applications enabled by 5G Ultra Wideband, with no throttling or data limits,” said Tami Erwin, CEO of Verizon Business. “We’ll continue to expand the 5G Business Internet footprint and bring the competitive pricing, capability, and flexibility of our full suite of products and services to more and more businesses all over the country.”
The service launched on April 15th in parts of Anaheim, Atlanta, Cincinnati, Cleveland, Dallas, Denver, Detroit, Indianapolis, Kansas City (Missouri), Las Vegas, Miami, Minneapolis, Phoenix, Sacramento, Salt Lake City, San Diego, San Francisco, San Jose, St Louis, and St. Paul. Parts of Riverside-Corona (California) will become available on 22 April. The service previously launched in parts of Chicago, Houston and Los Angeles. Additional cities will be announced on a rolling basis.
Additional information about this offer and 5G Business Internet pricing, availability, service and more is available here. In addition, where 5G Business Internet is not yet available, Verizon offers LTE Business Internet to keep Verizon customers covered.
The launch comes at a time when business decision-makers are coming face to face with the transformational potential of 5G. According to a recent Verizon Business survey conducted in partnership with Morning Consult, seven in 10 decision-makers (69%) believe 5G will help their company overcome the negative impact of the COVID-19 pandemic, nearly half (48%) said their companies have already provided or are planning to provide a 5G-capable smartphone or device to employees within the next six months, and approximately eight in 10 agree that 5G will create new opportunities for their company (80%), their industry (79%), and their role (79%).
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References:
https://www.verizon.com/about/news/verizon-business-5g-business-internet-21-us-cities
https://www.rcrwireless.com/20200522/carriers/verizon-5g-virtual-lab-mmwave-amplification
U.S. Tech Trade Groups call for industry-led telecom security standards
A coalition of nine telecom industry trade groups have called on the U.S. government to avoid imposing new security standards on the sector. While acknowledging the growing number of security threats, they said the government should uphold the history of industry-led technical standards in order to best address the issue.
The letter to the secretaries of Homeland Security (Alejandro Mayorkas) and Department of Commerce (Gina Raimond0) was signed by the Telecom Industry Association (TIA), Competitive Carriers Association (CCA), Consumer Technology Association (CTA), CTIA, ITI, National Association of Broadcasters (NAB), NTCA, USTelecom, and Wireless Infrastructure Association (WIA).
“Of critical importance now is maintaining the United States’ longstanding commitment to industry-led technical standards and best practices to address cybersecurity, supply chain, and other global challenges. Such standards are a bedrock of federal trade, technology, and security policy, so it is imperative that your respective Departments champion them. The federal government should not attempt to create its own technical demands, nor should it try to supplant private sector leadership in standards bodies.”
“In the wake of recently revealed, widespread compromises through software vectors like SolarWinds, government and industry face a renewed call to arms to address threats from foreign adversaries. The government has a vital interest in preventing suppliers that pose a national security threat from exploiting U.S. networks or undermining critical functions. However, policymakers should reconsider which tools are best suited to address particular aspects of this challenge and which kinds of approaches will deliver optimal security outcomes. Some recent policies deserve special review.”
The coalition is urging the Biden Administration to refrain from attempting to create its own technical demands or trying to supplant private sector leadership in standards bodies. As the recently released Interim Final Rules that implement aspects of E.O. 13873 are refined, the Commerce Department has the opportunity to take a more effective approach to supply chain security by placing greater focus on industry-led best practices as they represent a proven and positive model for nations working to build a secure, resilient and innovative connected ecosystem.
They are concerned about the Commerce Department’s implementation of an executive order passed in May 2019 by the Trump administration. This laid the groundwork for banning U.S. companies from doing business with Chinese suppliers Huawei and ZTE. It gives the Commerce secretary broad discretion to prohibit working with certain foreign companies in the name of national security.
The industry groups said in the letter that they are keen to work with the new government on efforts to “enhance the security of the ICT ecosystem and maintain US private sector leadership in international standards development”. They underlined their existing record on setting industry standards and work already underway to improve supply chain security. For example, the TIA is developing a standard to verify supply-chain security compliance.
Blanket measures like the Trump executive order should be avoided and more tailored solutions developed to address specific problems, the groups said. “The federal government should not attempt to create its own technical demands, nor should it try to supplant private sector leadership in standards bodies,” the letter said.
Further review of the rules implementing the Trump order is expected to include more input from the industry. The letter called on the Commerce department to work with the Department of Homeland Security and the private sector-led ICT Supply Chain Risk Management Task force “to tailor intervention actions to where they are most necessary, and place greater focus on industry-led standards and best practices that provide a positive model for nations working to build a secure, resilient, and innovative connected ecosystem now and in the future”.
The statement comes as several European countries have approved or are considering laws allowing greater controls on the telecom networks supply chain. The legislation is based on recommendations from the European Commission, which proposed in early 2020 a ‘tool box‘ to help ensure 5G networks are protected from potential security threats. The EU’s cybersecurity agency Enisa started last month at the Commission’s request developing a certification scheme, specifically for 5G equipment.
References:
ITU-R WP 5D new reports on IMT for PPDR applications, Terrestrial IMT for Cellular-Vehicle-to-Everything, 6G Vision & more
At its March 2021 virtual meeting, ITU-R WP5D completed a revision of the report ITU-R M.2291-1 – The use of International Mobile Telecommunications (IMT) for broadband Public Protection and Disaster Relief (PPDR) applications includes the IMT-2020 and 5G aspects in this public safety focused report to update the current report which was only based on IMT-Advanced 3GPP LTE technology. This revision was completed by ITU-R WP 5D and forwarded to Study Group 5 for action when they next meet in November 2021.
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ITU-R M.[IMT.C-V2X] – The use of the terrestrial component of IMT systems for Cellular-Vehicle-to-Everything
WP 5D is also developing a draft new report ITU-R M.[IMT.C-V2X] – The use of the terrestrial component of IMT systems for Cellular-Vehicle-to-Everything is intended to addresses the mutual relationship between IMT technologies and Cellular-Vehicle-to-Everything (C-V2X) as a specific application and elements of functions in IMT technologies that are used to realize C-V2X application.
Further, the report provides details on Overview on Usage of IMT technology, use cases, relationship between IMT and C-V2X, characteristics and capabilities supported by IMT, and case studies associated with C-V2X for the various scenarios including eMBB, mMTC, and URLLC of terrestrial component of IMT.
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Development of draft new report ITU-R M.[IMT.FUTURE TECHNOLOGY TRENDS TOWARDS 2030 AND BEYOND]
The draft new Report ITU-R M.[IMT.FUTURE TECHNOLOGY TRENDS TOWARDS 2030 AND BEYOND] is intended as a precursor to a “beyond IMT-2020” vision document for 6G that ITU-R WP 5D intends to produce in 2022. This trends report will assess where the technology is, and the current uses are for IMT-2020/5G and seek to identify the gaps and technical enablers anticipated to be necessary in the 2030 timeframe.
Furthermore, the expectation is that this Report will energize the academic and technology community to engage in the research and developments necessary to underpin a “beyond IMT-2020 and 6G view) as just focusing on new uses cases is insufficient to build such a future and the technology evolution requires a long lead time to fruition.
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Development of draft new report ITU-R M.[IMT TERRESTRIAL BROADBAND REMOTE COVERAGE]
The draft new Report ITU-R M.[IMT TERRESTRIAL BROADBAND REMOTE COVERAGE] – Terrestrial IMT for remote sparsely populated areas providing high data rate coverage is intended to provide details on scenarios associated with the provisioning of enhanced mobile broadband services to remote sparsely populated and underserved areas with a discussion on enhancements of user and network equipment.
It will distinguish between extending coverage on already deployed network and defining a use/case for deployment environment and is meant to meant to evaluate technical solutions required to extend the coverage of IMT system rather than discussing deployment layout for rural environments. The completion dates have been extended to the 39th WP 5D meeting (October 2021).
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Development of a draft new report ITU-R M.[IMT 2020.TDD.SYNCHRONIZATION]
The draft new report ITU-R [IMT2020.TDD.SYNCHRONIZATION] is intended to address the study of the aspects of synchronization operations of multiple IMT-2020 TDD networks in close proximity using the same frequency band, including analyses of coexistence issues when IMT operators utilize different synchronization modes, performance evaluation under different synchronization modes, and coexistence mitigation strategies.
The Report considers the further impacts of the introduction of technical advancement such as active antenna systems, etc. The completion dates were extended to the 41st WP 5D meeting (June 2022).
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Source: Chairman’s Report 37th e-meeting of Working Party 5D (1-12 March 2021 – Virtual), April 13, 2021
Mavenir and Xilinx Collaborate on Massive MIMO for Open RAN
Mavenir, an upstart end-to-end cloud-native network software provider and Xilinx, a leader in adaptive computing, announced today the companies are collaborating to bring to market a unified 4G/5G O-RAN massive MIMO (mMIMO) portfolio to enable Open RAN deployments. The first mMIMO 64TRX joint solution is expected to be available in Q4 2021.
Working together, the two companies have successfully completed end-to-end integration of a first-generation mMIMO solution using Open RAN principles. Held at the Mavenir Lab in Bangalore, India, the integration covered multiple deployment scenarios and was evaluated by six CSPs, all leading global operators. Mavenir delivered the Virtualized RAN (vRAN) support for mMIMO, including Core Network, CU and DU, with Xilinx providing the Category B O-RAN Radio Unit.
“This integration demonstrates an efficient Open RAN massive MIMO solution to achieve diversification of the telecommunications supply chain,” says Pardeep Kohli, President and CEO, Mavenir. “This is an important milestone in the delivery of open and interoperable interfaces enabling the deployment of mMIMO in high density, high mobile traffic metro areas.”
“We were early proponents of Open RAN technology along with Mavenir and actively led in standards development in the industry through many field trials around the world,” said Liam Madden, executive vice president and general manager, Wired and Wireless Group at Xilinx. “With the investment we have done on our market-leading wireless radio technology and massive MIMO R&D, we are excited to collaborate with Mavenir to bring our collective technology and radio system expertise together that will accelerate the deployment of market leading 5G O-RAN massive MIMO radio solutions.”
With history of leadership success in various 4G and 5G network deployments worldwide, the companies are jointly developing the next generation of mMIMO products which will bring the world’s first O-RAN compliant 64TRX mMIMO products that support up to 400MHz instantaneous bandwidth in a compact form factor. Mavenir’s vRAN software supports Multi-User MIMO with up to 16 layers, advanced receiver algorithms, full digital beamforming – all running on Mavenir’s open and flexible cloud-native platform, as well as on other cloud platforms.
These products will leverage Xilinx’s technology platform including RFSoC DFE and Versal AI for advanced beamforming, delivering a fully integrated hardware and software O-RAN compliant mMIMO solution.
The wireless industry’s focus is squarely set on massive MIMO as mid-band spectrum 5G deployments continue, particularly following the record high mid-band 5G spectrum auction that concluded in the U.S. earlier this year. Massive MIMO is especially important in mid-band 5G networks because it allows operators to densify network coverage, increase capacity and coverage, and reduce the need for incremental outdoor sites, all of which translates to less labor and lower costs.
Mavenir and Xilinx have not yet disclosed the specifications for the equipment, but claim the equipment at the top of the portfolio will feature a 64-antenna array for transmitting and receiving signals and support up to 400 megahertz of bandwidth. The initial supply of radios will support C-band spectrum in the U.S., and the companies plan to later support mid-band spectrum for 5G deployments in Europe, the Middle East, and India.
The vendors are coming together to prove that “open RAN massive MIMO radios are a reality, and we will deliver that to the market. Our first open RAN massive MIMO radio will be labs ready by early Q4 and field-trial ready by the end of the year,” said Gilles Garcia, a senior director at Xilinx.
“5G Open RAN has significant momentum in the market with ABI Research forecasting network vendor spending to reach $10 billion by 2026-27 and then surpass traditional RAN at $30 billion by 2030,” said Dimitris Mavrakis, senior research director of 5G at ABI Research.
“As Mavenir and Xilinx continue to work together to accelerate O-RAN-based massive MIMO adoption, their solutions will be well-timed to serve this high-growth market with the higher spectral efficiency, performance, power efficiency and cost needed as 5G demand intensifies.”