How Network Repository Function Plays a Critical Role in Cloud Native 5G SA Network

NRF (Network Repository Function) facilitates cloud-native 5G networks by enabling dynamic and efficient discovery of peer Network Functions, enhancing scalability.

Ajay Lotan Thakur

Introduction:

DNS (Domain Name Service) has been widely used by networks to discover 3G and 4G Network Functions (NFs). Every time there is a change in the network, this entails adding or updating records in the DNS server. This solution was not cohesive. The 5G Network Repository Function (NRF), which was introduced in the 5G specification, addresses this issue. Every Network Function needs to register its profile with NRF when it’s ready to service the APIs. Every NF type contains unique information in the NF profile. For example, Session Management Function (SMF) might provide the set of Data Network Names (DNN) it serves.

It’s important to note is that SMF may still choose User Plane Function (UPF) using proprietary logic because the UPF interface to NRF is still optional. In this article we shall see various advantages provided by 3GPP’s NRF network function over traditional 3G/4G networks.

Advantages of 5G NRFs:

Using 5G Network Resource Function (NRF) for discovering peer Network Functions (NFs) compared to relying on DNS servers in 4G networks brings several advantages:

  1. Efficiency in Resource Discovery: NRF offers a more efficient and dynamic way of discovering peer NFs within the network. Unlike DNS servers, which rely on static records and hierarchical lookup mechanisms, NRF enables direct discovery of available NFs, reducing latency and enhancing resource utilization. NRF can search the NFs based on many parameters like load, slice Ids, DNN name etc.
  2. Enhanced Security: NRF can incorporate security features such as authentication and authorization mechanisms, ensuring that only authorized NFs can be discovered and accessed. This helps in mitigating security threats such as DNS spoofing or cache poisoning, which are concerns in traditional DNS-based architectures.
  3. Support for Network Slicing: NRF is well-suited for 5G network slicing, where multiple virtualized networks coexist on the same physical infrastructure. It allows for efficient discovery and allocation of NFs specific to each network slice, enabling tailored services and resource optimization.
  4. Service Orchestration: NRF facilitates service orchestration by providing real-time information about the available NFs and their capabilities. This enables dynamic service composition and adaptation based on changing network conditions and application requirements. NRF can be used to put some of the NFs under maintenance mode as well.
  5. Low Latency: With NRF, the latency in discovering and connecting to peer NFs is significantly reduced compared to DNS-based approaches. This is crucial for applications requiring real-time communication or low-latency services, such as edge computing or autonomous vehicles. In case NRF is overloaded then it can scale-out to bring down the latency.
  6. Scalability: NRF architecture is designed to handle the scalability demands of 5G networks, where the number of NF instances and their dynamic nature can be high. It allows for efficient scaling of network resources without relying on centralized DNS servers, which may face scalability challenges under heavy loads.  This allows Network Functions to implement dynamic scale in & scale out without touching any DNS servers.
  7. Dynamic Network Updates: NRF supports dynamic updates of network information, allowing for real-time changes in the availability and status of NF instances. These are NRF notifications supported as per 3gpp specification.  In contrast, DNS records may require time to propagate changes across the network, leading to potential inconsistencies or delays in service discovery. Each NF can update its profile as and when it sees changes.

Conclusions:

Overall, leveraging NRF for NF discovery in 5G networks offers improved efficiency, scalability, low latency, security, and support for advanced network functionalities compared to relying solely on DNS servers in 4G networks.

References:

3GPP TS 23.501 – System Architecture for the 5G System

3GPP TS 29.510 – Network Function Repository Services

Building and Operating a Cloud Native 5G SA Core Network

GSA: More 5G SA devices, but commercial 5G SA deployments lag

Global 5G Market Snapshot; Dell’Oro and GSA Updates on 5G SA networks and devices

Ericsson Mobility Report touts “5G SA opportunities”

Analysys Mason: 40 operational 5G SA networks worldwide; Sub-Sahara Africa dominates new launches

Samsung and VMware Collaborate to Advance 5G SA Core & Telco Cloud

5G SA networks (real 5G) remain conspicuous by their absence

GSM 5G-Market Snapshot Highlights – July 2023 (includes 5G SA status)

 

About the Author:

Ajay Lotan Thakur, Senior IEEE Member, IEEE Techblog Editorial Board Member, BCS Fellow, TST Member of ONF’s open source Aether (Private 5G) Project, Cloud Software Architect at Intel Canada.

Blog post edited by Alan J Weissberger

GSA: More 5G SA devices, but commercial 5G SA deployments lag

Findings from the latest GSA report on the 5G standalone (SA) ecosystem include:

  • 1,764 announced devices with claimed support for 5G SA, up 43.7% from 1,227 at the end of 2022.
  • Devices with support for 5G SA account for 68.1% of all 5G devices, as of the end of March 2024, up from 43.3% in December 2019.
  • 97 modems or mobile processors/platform chipsets state support for 5G SA, 93 of which are understood to be commercially available.

5G mobile Communications Mast

………………………………………………………………………..

Other Estimates of deployed 5G SA core networks:

According to a recent LinkedIn post by Kaneshwaran Govindasamy, at least 49 network 29 have launched or deployed public 5 , one of which has only soft-launched their 5G SA networks.

A February 2024 report from Counterpoint Research in February 2024 states that only 55 operators have commercially implemented 5G SA, with many more in testing and trial stages.

As of January 2024, Dell’Oro Group has identified 50 5G SA enhanced Mobile BroadBand (eMMB) networks that have been deployed worldwide. Dell’Oro Group’s Research Director, Dave Bolan, stated that the build-out of 5G SA networks is slower than expected, and that the number of new 5G SA networks deployed in 2023 (12) was lower than in 2022 (18). However, Bolan predicts that 2024 will see more 5G SA launches than 2022, and that 5G SA launches will occur in almost all global markets except Africa.

……………………………………………………………………………………………………

It should be noted that there is only one 5G SA network deployed in the U.S. from T-Mobile.  AT&T and Verizon have promised 5G SA for years but it’s not commercially deployed by either operator at this time.

5G SA networks support higher-density device deployments and improved network performance.  Without a 5G SA network, there are no 3GPP defined 5G features available, such as 5G Security, Network Slicing, MEC, etc.

References:

5G-Standalone April 2024 Member report

 

GSA 5G SA Core Network Update Report – Technology Blog

Building and Operating a Cloud Native 5G SA Core Network

Mobile Core Market Stagnant Due to Lack of 5G Standalone Deployments, According to Dell’Oro Group

Operator Transitions to 5G SA Core Decline YoY in 2023

https://www.ericsson.com/en/5g/5g-sa

 

 

 

 

Summit Broadband deploys 400G using Ciena’s WaveLogic 5 Extreme

Florida-based fiber optic telecommunications provider Summit Broadband has launched 400G services following a network upgrade with Ciena. Summit Broadband is leveraging Ciena’s WaveLogic 5 Extreme (WL5e) [1.] to offer 400 Gbps wavelength services to enterprise customers in Central and Southwest Florida, Ciena said last week.

Summit Broadband owns and operates over 4,300 fiber-route miles of infrastructure and serves industries and communities throughout the state with voice, video, data, internet, and Ethernet services, as well as dark fiber transport.

Note 1. Summit Broadband is deploying Ciena’s WaveLogic Ai coherent optics across a flexible 6500 ROADM network, delivering 400GbE wave services to increase capacity and reach more users. Summit Broadband is also utilizing Ciena’s 3926 and 5164 Routing and Switching platforms for cost effective service delivery, as well as Adaptive IP Apps and Manage, Control and Plan (MCP) domain controller for real-time visibility and analysis of routing behaviors to optimize network performance and identify issues with greater ease for faster resolution.

Ciena noted that Summit Broadband has rolled out 400 Gbps wavelength to support the rise in data consumption of high-bandwidth applications such as cloud computing, IoT devices, video streaming, and enterprise services. This upgrade builds on the longstanding relationship between both companies, with Ciena powering Summit’s optical network.

In his first year as CEO, Kevin Coyne has transformed Summit Broadband’s network to create data superhighways encircling the Florida peninsula, serving customers in Central, West, and Southwest Florida. This recent network expansion gives Summit Broadband even greater flexibility and adaptability to respond to the increasing needs of its customers, including school districts and municipalities.

“The past year has shown us how having access to high-quality connectivity is a necessity for everyday life,” said Coyne. “We chose to invest in deploying Ciena’s cutting edge solutions to bring an enhanced digital experience across Florida, connecting more people and businesses using higher speeds and lower latency services.”

“The demand for bandwidth shows no signs of slowing down, and our new 400 Gbps service ensures that our business customers have the high performance and scalability essential for applications like data center interconnect, which require fast speeds and low latency.”

Additionally, the upgrade will allow Summit to deliver more data per unit of energy over our existing infrastructure, maximizing network utilisation and providing capex and opex savings, Summit Broadband added.

…………………………………………………………………………………………………………………….

In January, BW Digital, the owner of the Hawaiki Submarine Cable, confirmed the availability of commercial 400 GbE services on the Hawaiki trans-Pacific cable, powered by Ciena’s GeoMesh Extreme subsea network solution.

References:

https://www.ciena.com/about/customer-stories/summit-broadband-expands-network-across-florida-with-cienas-adaptive-ip

Summit Broadband Launches 400 Gbps Services With Ciena

 

SNS Telecom & IT: Private 5G Network market annual spending will be $3.5 Billion by 2027

SNS Telecom & IT’s new “Private 5G Networks: 2024 – 2030” report exclusively focuses on the market for private networks built using the 3GPP-defined 5G specifications (there are no ITU-R recommendations for private 5G networks or ITU-T recommendations for 5G SA core networks). In addition to vendor consultations, it has taken us several months of end user surveys in early adopter national markets to compile the contents and key findings of this report. A major focus of the report is to highlight the practical and tangible benefits of production-grade private 5G networks in real-world settings, as well as to provide a detailed review of their applicability and realistic market size projections across 16 vertical sectors based on both supply side and demand side considerations.

The report states report that the real-world impact of private 5G networks – which are estimated to account for $3.5 Billion in annual spending by 2027 – is becoming ever more visible, with diverse practical and tangible benefits such as productivity gains through reduced dependency on unlicensed wireless and hard-wired connections in industrial facilities, allowing workers to remotely operate cranes and mining equipment from a safer distance and significant, quantifiable cost savings enabled by 5G-connected patrol robots and image analytics in Wagyu beef production.

SNS Telecom & IT estimates that annual investments in private 5G networks for vertical industries will grow at a CAGR of approximately 42% between 2024 and 2027, eventually accounting for nearly $3.5 Billion by the end of 2027. Although much of this growth will be driven by highly localized 5G networks covering geographically limited areas for Industry 4.0 applications in manufacturing and process industries, sub-1 GHz wide area critical communications networks for public safety, utilities and railway communications are also anticipated to begin their transition from LTE, GSM-R and other legacy narrowband technologies to 5G towards the latter half of the forecast period, as 5G Advanced becomes a commercial reality. Among other features for mission-critical networks, 3GPP Release 18 – which defines the first set of 5G Advanced specifications – adds support for 5G NR equipment operating in dedicated spectrum with less than 5 MHz of bandwidth, paving the way for private 5G networks operating in sub-500 MHz, 700 MHz, 850 MHz and 900 MHz bands for public safety broadband, smart grid modernization and FRMCS (Future Railway Mobile Communication System).

…………………………………………………………………………………………………………………………………………………………………………………………………………………………………………..

Private LTE networks are a well-established market and have been around for more than a decade, albeit as a niche segment of the wider cellular infrastructure segment – iNET’s (Infrastructure Networks) 700 MHz LTE network in the Permian Basin, Tampnet’s offshore 4G infrastructure in the North Sea, Rio Tinto’s private LTE network for its Western Australia mining operations and other initial installations date back to the early 2010s. However, in most national markets, private cellular networks or NPNs (Non-Public Networks) based on the 3GPP-defined 5G specs are just beginning to move beyond PoC (Proof-of-Concept) trials and small-scale deployments to production-grade implementations of standalone 5G networks, which are laying the foundation for Industry 4.0 and advanced application scenarios.

Compared to LTE technology, private 5G networks – also referred to as 5G MPNs (Mobile Private Networks), 5G campus networks, local 5G or e-Um 5G systems depending on geography – can address far more demanding performance requirements in terms of throughput, latency, reliability, availability and connection density. In particular, 5G’s URLLC (Ultra-Reliable, Low-Latency Communications) and mMTC (Massive Machine-Type Communications) capabilities, along with a future-proof transition path to 6G networks in the 2030s, have positioned it as a viable alternative to physically wired connections for industrial-grade communications between machines, robots and control systems. Furthermore, despite its relatively higher cost of ownership, 5G’s wider coverage radius per radio node, scalability, determinism, security features and mobility support have stirred strong interest in its potential as a replacement for interference-prone unlicensed wireless technologies in IIoT (Industrial IoT) environments, where the number of connected sensors and other endpoints is expected to increase significantly over the coming years.

It is worth noting that China is an outlier and the most mature national market thanks to state-funded directives aimed at accelerating the adoption of 5G connectivity in industrial settings such as factories, warehouses, mines, power plants, substations, oil and gas facilities and ports. To provide some context, the largest private 5G installations in China can comprise hundreds to even thousands of dedicated RAN (Radio Access Network) nodes supported by on-premise or edge cloud-based core network functions depending on specific latency, reliability and security requirements. For example, home appliance manufacturer Midea’s Jingzhou industrial park hosts 2,500 indoor and outdoor 5G NR access points to connect workers, machines, robots and vehicles across an area of approximately 104 acres, steelmaker WISCO (Wuhan Iron & Steel Corporation) has installed a dual-layer private 5G network – spanning 85 multi-sector macrocells and 100 small cells – to remotely operate heavy machinery at its steel plant in Wuhan (Hubei), and Fujian-based manufacturer Wanhua Chemical has recently built a customized wireless network that will serve upwards of 8,000 5G RedCap (Reduced Capability) devices, primarily surveillance cameras and IoT sensors.

As end user organizations in the United States, Germany, France, Japan, South Korea, Taiwan and other countries ramp up their digitization and automation initiatives, private 5G networks are progressively being implemented to support use cases as diverse as wirelessly connected machinery for the rapid reconfiguration of production lines, distributed PLC (Programmable Logic Controller) environments, AMRs (Autonomous Mobile Robots) and AGVs (Automated Guided Vehicles) for intralogistics, AR (Augmented Reality)-assisted guidance and troubleshooting, machine vision-based quality control, wireless software flashing of manufactured vehicles, remote-controlled cranes, unmanned mining equipment, BVLOS (Beyond Visual Line-of-Sight) operation of drones, digital twin models of complex industrial systems, ATO (Automatic Train Operation), video analytics for railway crossing and station platform safety, remote visual inspections of aircraft engine parts, real-time collaboration for flight line maintenance operations, XR (Extended Reality)-based military training, virtual visits for parents to see their infants in NICUs (Neonatal Intensive Care Units), live broadcast production in locations not easily accessible by traditional solutions, operations-critical communications during major sporting events, and optimization of cattle fattening and breeding for Wagyu beef production.

Despite prolonged teething problems in the form of a lack of variety of non-smartphone devices, high 5G IoT module costs due to low shipment volumes, limited competence of end user organizations in cellular wireless systems and conservatism with regards to new technology, early adopters are affirming their faith in the long-term potential of private 5G by investing in networks built independently using new shared and local area licensed spectrum options, in collaboration with private network specialists or via traditional mobile operators. Some private 5G installations have progressed to a stage where practical and tangible benefits – particularly efficiency gains, cost savings and worker safety – are becoming increasingly evident. Notable examples include but are not limited to:

  • Tesla’s private 5G implementation on the shop floor of its Giga-factory Berlin-Brandenburg plant in Brandenburg, Germany, has helped in overcoming up to 90 percent of the overcycle issues for a particular process in the factory’s GA (General Assembly) shop. The electric automaker is integrating private 5G network infrastructure to address high-impact use cases in production, intralogistics and quality operations across its global manufacturing facilities.
  • John Deere is steadily progressing with its goal of reducing dependency on wired Ethernet connections from 70% to 10% over the next five years by deploying private 5G networks at its industrial facilities in the United States, South America and Europe. In a similar effort, automotive aluminum die-castings supplier IKD has replaced 6 miles of cables connecting 600 pieces of machinery with a private 5G network, thereby reducing cable maintenance costs to near zero and increasing the product yield rate by ten percent.
  • Lufthansa Technik’s 5G campus network at its Hamburg facility has removed the need for its civil aviation customers to physically attend servicing by providing reliable, high-resolution video access for virtual parts inspections and borescope examinations at both of its engine overhaul workshops. Previous attempts to implement virtual inspections using unlicensed Wi-Fi technology proved ineffective due to the presence of large metal structures.
  • The EWG (East-West Gate) Intermodal Terminal’s private 5G network has increased productivity from 23-25 containers per hour to 32-35 per hour and reduced the facility’s personnel-related operating expenses by 40 percent while eliminating the possibility of crane operator injury due to remote-controlled operation with a latency of less than 20 milliseconds.
  • The Liverpool 5G Create network in the inner city area of Kensington has demonstrated significant cost savings potential for digital health, education and social care services, including an astonishing $10,000 drop in yearly expenditure per care home resident through a 5G-connected fall prevention system and a $2,600 reduction in WAN (Wide Area Network) connectivity charges per GP (General Practitioner) surgery – which represents $220,000 in annual savings for the United Kingdom’s NHS (National Health Service) when applied to 86 surgeries in Liverpool.
  • NEC Corporation has improved production efficiency by 30 percent through the introduction of a local 5G-enabled autonomous transport system for intralogistics at its new factory in Kakegawa (Shizuoka Prefecture), Japan. The manufacturing facility’s on-premise 5G network has also resulted in an elevated degree of freedom in terms of the factory floor layout, thereby allowing NEC to flexibly respond to changing customer needs, market demand fluctuations and production adjustments.
  • A local 5G installation at Ushino Nakayama’s Osumi farm in Kanoya (Kagoshima Prefecture), Japan, has enabled the Wagyu beef producer to achieve labor cost savings of more than 10 percent through reductions in accident rates, feed loss, and administrative costs. The 5G network provides wireless connectivity for AI (Artificial Intelligence)-based image analytics and autonomous patrol robots.
  • CJ Logistics has achieved a 20 percent productivity increase at its Ichiri center in Icheon (Gyeonggi), South Korea, following the adoption of a private 5G network to replace the 40,000 square meter warehouse facility’s 300 Wi-Fi access points for Industry 4.0 applications, which experienced repeated outages and coverage issues.
  • Delta Electronics – which has installed private 5G networks for industrial wireless communications at its plants in Taiwan and Thailand – estimates that productivity per direct labor and output per square meter have increased by 69% and 75% respectively following the implementation of 5G-connected smart production lines.
  • An Open RAN-compliant standalone private 5G network in Taiwan’s Pingtung County has facilitated a 30 percent reduction in pest-related agricultural losses and a 15 percent boost in the overall revenue of local farms through the use of 5G-equipped UAVs (Unmanned Aerial Vehicles), mobile robots, smart glasses and AI-enabled image recognition.
  • JD Logistics – the supply chain and logistics arm of online retailer JD.com – has achieved near-zero packet loss and reduced the likelihood of connection timeouts by an impressive 70 percent since migrating AGV communications from unlicensed Wi-Fi systems to private 5G networks at its logistics parks in Beijing and Changsha (Hunan), China.
  • Baosteel – a business unit of the world’s largest steelmaker China Baowu Steel Group – credits its 43-site private 5G deployment at two neighboring factories with reducing manual quality inspections by 50 percent and achieving a steel defect detection rate of more than 90 percent, which equates to $7 Million in annual cost savings by reducing lost production capacity from 9,000 tons to 700 tons.
  • Dongyi Group Coal Gasification Company ascribes a 50 percent reduction in manpower requirements and a 10 percent increase in production efficiency – which translates to more than $1 Million in annual cost savings – at its Xinyan coal mine in Lvliang (Shanxi), China, to private 5G-enabled digitization and automation of underground mining operations.
  • Sinopec’s (China Petroleum & Chemical Corporation) explosion-proof 5G network at its Guangzhou oil refinery in Guangdong, China, has reduced accidents and harmful gas emissions by 20% and 30% respectively, resulting in an annual economic benefit of more than $4 Million. The solution is being replicated across more than 30 refineries of the energy giant.
  • Since adopting a hybrid public-private 5G network to enhance the safety and efficiency of urban rail transit operations, the Guangzhou Metro rapid transit system has reduced its maintenance costs by approximately 20 percent using 5G-enabled digital perception applications for the real-time identification of water logging and other hazards along railway tracks.

Some of the most technically advanced features of 5G Advanced – 5G’s next evolutionarily phase – are also being trialed over private wireless installations. Among other examples, Chinese automaker Great Wall Motor is using an indoor 5G Advanced network for time-critical industrial control within a car roof production line as part of an effort to prevent wire abrasion in mobile application scenarios, which results in production interruptions with an average downtime of 60 hours a year.

In addition, against the backdrop of geopolitical trade tensions and sanctions that have restricted established telecommunications equipment suppliers from operating in specific countries, private 5G networks have emerged as a means to test domestically produced 5G network infrastructure products in controlled environments prior to large-scale deployments or vendor swaps across national or regional public mobile networks. For instance, Russian steelmaker NLMK Group is trialing a private 5G network in a pilot zone within its Lipetsk production site, using indigenously built 5G equipment operating in Band n79 (4.8-4.9 GHz) spectrum.

To capitalize on the long-term potential of private 5G, a number of new alternative suppliers have also developed 5G infrastructure offerings tailored to the specific needs of industrial applications. For example, satellite communications company Globalstar has launched a 3GPP Release 16-compliant multipoint terrestrial RAN system that is optimized for dense private wireless deployments in Industry 4.0 automation environments while German engineering conglomerate Siemens has developed an in-house private 5G network solution for use at its own plants as well as those of industrial customers.

The “Private 5G Networks: 2024 – 2030 – Opportunities, Challenges, Strategies & Forecasts” report presents an in-depth assessment of the private 5G network ecosystem, including the value chain, market drivers, barriers to uptake, enabling technologies, operational and business models, vertical industries, application scenarios, key trends, future roadmap, standardization, spectrum availability and allocation, regulatory landscape, case studies, ecosystem player profiles and strategies. The report also presents global and regional market size forecasts from 2024 to 2030. The forecasts cover three infrastructure submarkets, two technology generations, 16 vertical industries and five regional markets.  The report comes with an associated Excel datasheet suite covering quantitative data from all numeric forecasts presented in the report, as well as a database of over 7,000 global private cellular engagements – including more than 2,200 private 5G installations – as of Q2’2024.

The key findings of the report include:

  • SNS Telecom & IT estimates that annual investments in private 5G networks for vertical industries will grow at a CAGR of approximately 42% between 2024 and 2027, eventually accounting for nearly $3.5 Billion by the end of 2027. Much of this growth will be driven by highly localized 5G networks covering geographically limited areas for high-throughput and low-latency Industry 4.0 applications in manufacturing and process industries.
  • Sub-1 GHz wide area critical communications networks for public safety, utilities and railway communications are also anticipated to begin their transition from LTE, GSM-R and other legacy narrowband technologies to 5G towards the latter half of the forecast period, as 5G Advanced – 5G’s next evolutionarily phase – becomes a commercial reality.
  • As end user organizations ramp up their digitization and automation initiatives, some private 5G installations have progressed to a stage where practical and tangible benefits are becoming increasingly evident. Notably, private 5G networks have resulted in productivity and efficiency gains for specific manufacturing, quality control and intralogistics processes in the range of 20 to 90%, cost savings of up to 40% at an intermodal terminal, reduction of worker accidents and harmful gas emissions by 20% and 30% respectively at an oil refinery, and a 50% decrease in manpower requirements for underground mining operations.
  • Some of the most technically advanced features of 5G Advanced are also being trialed over private wireless installations. Among other examples, Chinese automaker Great Wall Motor is using an indoor 5G Advanced network for time-critical industrial control within a car roof production line as part of an effort to prevent wire abrasion in mobile application scenarios, which results in production interruptions with an average downtime of 60 hours a year.

In addition, against the backdrop of geopolitical trade tensions and sanctions that have restricted established telecommunications equipment suppliers from operating in specific countries, private 5G networks have emerged as a means to test domestically produced 5G network infrastructure products in controlled environments prior to large-scale deployments or vendor swaps across national or regional public mobile networks. For example, Russian steelmaker NLMK Group is trialing a private 5G network in a pilot zone within its Lipetsk production site, using indigenously built 5G equipment operating in Band n79 (4.8-4.9 GHz) spectrum.

To capitalize on the long-term potential of private 5G, a number of new alternative suppliers have also developed 5G infrastructure offerings tailored to the specific needs of industrial applications. For example, satellite communications company Globalstar has launched a 3GPP Release 16-compliant multipoint terrestrial RAN system that is optimized for dense private wireless deployments in Industry 4.0 automation environments while German engineering conglomerate Siemens has developed an in-house private 5G network solution for use at its own plants as well as those of industrial customers.

Spectrum liberalization initiatives – particularly shared and local spectrum licensing frameworks – are playing a pivotal role in accelerating the adoption of private 5G networks. Telecommunications regulators in multiple national markets – including the United States, Canada, United Kingdom, Germany, France, Spain, Netherlands, Switzerland, Finland, Sweden, Norway, Poland, Slovenia, Bahrain, Japan, South Korea, Taiwan, Hong Kong, Australia and Brazil – have released or are in the process of granting access to shared and local area licensed spectrum.

By capitalizing on their extensive licensed spectrum holdings, infrastructure assets and cellular networking expertise, national mobile operators have continued to retain a significant presence in the private 5G network market, even in countries where shared and local area licensed spectrum is available. With an expanded focus on vertical B2B (Business-to-Business) opportunities in the 5G era, mobile operators are actively involved in diverse projects extending from localized 5G networks for secure and reliable wireless connectivity in industrial and enterprise environments to sliced hybrid public-private networks that integrate on-premise 5G infrastructure with a dedicated slice of public mobile network resources for wide area coverage.

New classes of private network service providers have also found success in the market. Notable examples include but are not limited to Celona, Federated Wireless, Betacom, InfiniG, Ataya, Smart Mobile Labs, MUGLER, Alsatis, Telent, Logicalis, Telet Research, Citymesh, Netmore, RADTONICS, Combitech, Grape One, NS Solutions, OPTAGE, Wave-In Communication, LG CNS, SEJONG Telecom, CJ OliveNetworks, Megazone Cloud, Nable Communications, Qubicom, NewGens and Comsol, and the private 5G business units of neutral host infrastructure providers such as Boldyn Networks, American Tower, Boingo Wireless, Crown Castle, Freshwave and Digita.

NTT, Kyndryl, Accenture, Capgemini, EY (Ernst & Young), Deloitte, KPMG and other global system integrators have been quick to seize the private cellular opportunity with strategic technology alliances. Meanwhile, hyperscalers – most notably AWS (Amazon Web Services), Google and Microsoft – are offering managed private 5G services by leveraging their cloud and edge platforms.

Although greater vendor diversity is beginning to be reflected in infrastructure sales, larger players are continuing to invest in strategic acquisitions as highlighted by HPE’s (Hewlett Packard Enterprise) acquisition of Italian mobile core technology provider Athonet.

The service provider segment is not immune to consolidation either. For example, Boldyn Networks has recently acquired Cellnex’s private networks business unit, which largely includes Edzcom – a private 4G/5G specialist with installations in Finland, France, Germany, Spain, Sweden and the United Kingdom.

Among other examples, specialist fiber and network solutions provider Vocus has acquired Challenge Networks – an Australian pioneer in private LTE and 5G networks, while mobile operator Telstra – through its Telstra Purple division – has acquired industrial private wireless solutions provider Aqura Technologies.

The report will be of value to current and future potential investors into the private 5G network market, as well as 5G equipment suppliers, system integrators, private network specialists, mobile operators and other ecosystem players who wish to broaden their knowledge of the ecosystem.

About SNS Telecom & IT:

Part of the SNS Worldwide group, SNS Telecom & IT is a global market intelligence and consulting firm with a primary focus on the telecommunications and information technology industries. Developed by in-house subject matter experts, our market intelligence and research reports provide unique insights on both established and emerging technologies. Our areas of coverage include but are not limited to 5G, LTE, Open RAN, private cellular networks, IoT (Internet of Things), critical communications, big data, smart cities, smart homes, consumer electronics, wearable technologies and vertical applications.

References:

https://www.snstelecom.com/private5g

What is 5G Advanced and is it ready for deployment any time soon?

Nokia and Kyndryl extend partnership to deliver 4G/5G private networks and MEC to manufacturing companies

https://www.kyndryl.com/us/en/about-us/news/2024/02/it-ot-convergence-in-manufacturing

India Telcos say private networks will kill their 5G business

WSJ: China Leads the Way With Private 5G Networks at Industrial Facilities

SNS Telecom & IT: Q1-2024 Public safety LTE/5G report: review of engagements across 86 countries, case studies, spectrum allocation and more

 

 

Big Tech post strong earnings and revenue growth, but cuts jobs along with Telecom Vendors

Tech companies have been consistently laying off employees since late 2022. As of April 25th, some 266 tech companies have laid off nearly 75,000 workers in 2024, according to the independent layoff-tracking site layoffs.fyi.  A total of 262,682 workers in tech lost their jobs in 2023 compared with 164,969 in 2022. The volume of layoffs in 2023 — a total of 1,186 companies — also surpassed 2022, when 1,061 companies in tech laid off workers — and that total was more than in 2020 and 2021 combined.

Big Tech companies Alphabet (Google’s parent), Amazon, Apple, Meta, Microsoft and Netflix, collectively cut nearly 45,500 jobs in their most recent full fiscal year. Since 2020, however, they have added more than 358,500, bringing total headcount to nearly 2,170,000. Excluding Amazon, which accounts for 70% of that figure, job numbers fell by around 29,700 last year but have grown by 131,500 since 2020 (data from earnings reports and SEC filings – see chart below).

  • Today, Amazon reported better-than-expected earnings and revenue for the first quarter, driven by growth in advertising and cloud computing. Operating income soared more than 200% in the period to $15.3 billion, far outpacing revenue growth, the latest sign that the company’s cost-cutting measures and focus on efficiency is bolstering its bottom line. AWS accounted for 62% of total operating profit. Net income also more than tripled to $10.4 billion, or 98 cents a share, from $3.17 billion, or 31 cents a share, a year ago. Sales increased 13% from $127.4 billion a year earlier.
  • Google parent Alphabet also posted robust profits, with net income in the latest quarter soaring 57% to $23.7 billion while revenue grew 15% in the quarter.  That’s despite job cuts of 12,115 and net headcount reduction of ~8,000 in 2023.
  • Microsoft last week managed 20% year-over-year growth in third-quarter net income, to around $21.9 billion, on 17% growth in sales, to $61.9 billion. The number of Microsoft employees was unchanged in 2023 from the previous year, despite the company laying off 11,158 employees.  Future headcount reductions may be necessary to help pay for Microsoft’s multi-billion-dollar splurge on AI and the data centers needed to train the Large Language Models and associated generative AI technology. But few expect job cuts to slow Microsoft down.

………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………

As expected, telecom vendors, which have many fewer employees, than Big Tech had a higher percentage of job reductions.  CommScope, Corning, Dell, Ericsson, and Nokia, suppliers to some of the world’s biggest telcos, shed nearly 36,500 jobs last year as large IT customers spent less on new equipment.

The following table shows the total number of jobs per year for many vendors/cloud service providers.

Screenshot_2024-04-29_at_15.51.25.png

Source: Light Reading & company reports/SEC filings

Huawei was the exception to the telecom vendor layoff craze (even ZTE reduced its workforce in 2023). Despite U.S. sanctions and a European backlash against the company, Huawei gained 12,000 employees in 2022, giving it a workforce of 207,000 that year. The number was unchanged in 2023, according to its recently published annual report. Restrictions have not been as effective at hindering Huawei’s progress as the U.S. had hoped.

On the semiconductor side, Intel experienced a net workforce reduction of 7,100 jobs. Profits have tanked because of market share losses, a downturn in customer spending on equipment (explained partly by the earlier build-up of inventory that happened after the pandemic) and investments in new foundries designed to challenge the Asian giants of TSMC and Samsung. Big Tech moves to build in-house AI augmented processor chips that can substitute for Intel’s microprocessors are among the problems the company faces.   Intel’s profits have collapsed, just as they have at the mobile networks business group of silicon customer Nokia, and it is at risk of displacement by chip rivals in important markets.

These big tech layoffs are a peculiar outlier in an otherwise strong employment environment: The unemployment rate has hovered between 3.4% and 3.8% since Feb. 2022, bureau data shows.  And quit rates, which reflect a lack of worker confidence, this year are consistently at some of the highest levels in more than 20 years, according to the Federal Reserve Bank of St. Louis.

In summary, Big Tech companies continue to thrive financially, but they are also making strategic adjustments, including job cuts, as they navigate the evolving landscape of technology and generative AI. The emphasis on AI development, large language models, and cloud services remains a key driver for their growth and profitability.  Telecom vendors are facing tremendous pain due to continued reduction in telco CAPEX which may persists for many years.

…………………………………………………………………………………………………………………………………………………………………………………………………………………………..

References:

https://www.lightreading.com/ai-machine-learning/big-tech-it-and-telecom-vendors-axed-70-000-jobs-last-year

https://www.nerdwallet.com/article/finance/tech-layoffs

US cable and telecom network operators feel the pain

Bloomberg: Higher borrowing costs hurting indebted wireless companies; industry is 2nd largest source of distressed debt

Telecom layoffs continue unabated as AT&T leads the pack – a growth engine with only 1% YoY growth?

High Tech Layoffs Explained: The End of the Free Money Party

US cable and telecom network operators feel the pain

According to the financial analysts at TD Cowen, prominent cable companies like Charter and Comcast collectively lost 186,000 customers in the first quarter 2024, ahead of their estimates of 141,000.

“The quarter is proving that Cable and Wireless are in the throes of market maturity, both facing a smaller pool with churn at historically low levels,” wrote TD Cowen in a recent note to investors.

“Cable has lost subscribers for a fourth consecutive quarter and [it’s] getting worse,” the analysts wrote. “The Broadband market is clearly maturing and churn is at historic lows, meaning there are less [customer] adds to go around. Therefore, even with FWA [fixed wireless access] adds trending lower, Cable will continue to struggle to grow subscribers in the near-to-mid-term.”

“During the first quarter, our Internet customer growth remained challenged by a low move and generally low activity environment, coupled with continued elevated competition at least in the short term and a small impact from fewer low income connects due to discontinued ACP availability,” explained Charter CEO Chris Winfrey during his company’s quarterly conference call, according to Seeking Alpha.

Comcast lost 65,000 broadband customers between January and March due to stiff competition from telecom firms such as T-Mobile and Verizon. The decline was more than the estimated loss of 49,000 customers, according to FactSet. The company said broadband subscriber losses would continue.

Wireless carriers AT&T, Verizon and T-Mobile collectively reported more postpaid phone growth than expected, but the TD Cowen analysts noted their gross customer additions were “light across the board.”

MoffettNathanson analysts wrote that T-Mobile’s numbers during the first quarter “were met only after adopting a dramatically sweetened free-iPhone offer in the waning days of the quarter. That offer was pulled as soon as the quarter ended. Industry growth is slowing, Cable is taking share (and threatens re-pricing the industry lower in the process), and the ever-lengthening upgrade cycles for handsets have to reverse eventually. None of that is terrifying. But it is worrying.”

Telco job cuts are continuing after many years of layoffs.

AT&T and Verizon have been shedding jobs/ reducing headcount for many years and wireline carrier Lumen Technologies is following:

  • AT&T cut the most total number of jobs in 2023, reducing its headcount from 162,920 employees at the end of 2022, to 150,470 employees at the end of last year. That was below the nearly 40,000 jobs AT&T managed to cut in 2022.
  • Verizon cut slightly fewer jobs than AT&T last year, though it was a higher overall percentage of its employee base. The #2 U.S. carrier slashed 11,700 positions in 2023, ending the year with 105,400 total employees.
  • Lumen Technologies recently announced it would cut almost 1,000 positions, or 7% of its workforce, to “right-size our business through automation and AI.”

The very tough telecom market may be pushing operators to raise money or pursue M&A.  “The capital markets are becoming more favorable, further opening up the possibility for M&A,” wrote the financial analysts at TD Cowens.

  • Cogent is raising around $200 million with some of its IPv4 Internet addresses.
  • According to Bloomberg, Uniti Group is preparing to reunite with Windstream in a $15 billion merger.

Uniti and Windstream aren’t alone. For example, Bloomberg reported that European satellite operators SES and Intelsat have also restarted merger negotiations.

Meanwhile, T-Mobile now expects to close its $1.3 billion purchase of MVNO Mint Mobile in the coming days. The company also recently inked a $1.5 billion plan to invest into fiber operator Lumos.

It’s unclear when the next big M&A transaction might arrive in the telecom industry. There are plenty of assets up for sale, including UScellular’s mobile business and Crown Castle’s fiber and small cell operations.

………………………………………………………………………………………………..

Hovering over all of this is the apparent end of the U.S. government’s Affordable Connectivity Program (ACP). That program currently provides up to $30 per month to 23 million U.S. households for their telecom services, money that ultimately runs into the coffers of network operators.

“We’re expecting that the program funding is going to end,” said T-Mobile’s Michael Katz during his company’s quarterly conference call.

Katz said T-Mobile counts “a couple hundred thousand” prepaid customers on the program. But he suggested that the end of ACP might help funnel some customers to T-Mobile’s cheaper offerings, including its new Mint Mobile brand.

Meanwhile, other US subsidies are scheduled to hit the US broadband market in the coming months and years. For example, money from the Biden administration’s $42.5 billion Broadband Equity Access and Deployment (BEAD) program is expected to begin running through U.S. states starting next year. That money will arrive in the form of grants for the construction of networks in rural areas.

It’s unclear how that shifting subsidy landscape will affect a U.S. broadband market that’s showing signs of slowing.

“We now have confidence that industry [customer] adds will land at a little more than 400,000, down from a normal pace of 700-800,000,” wrote the financial analysts at New Street Research in a note to investors following the release of Charter’s earnings. “If we annualize this, based on normal seasonality, we land at a little more than 1 million adds for the year, down from a normal pace of ~2.5 million.”

The New Street Research analysts explained that growth in the U.S. broadband market is generally keeping pace with the formation of new households, which is also slower than normal.  

“The big question: have we hit saturation for the broadband market or are there temporary pressures impacting growth,” wrote the analysts. “If it is the former, then this is the new normal. If the latter, growth should reaccelerate at some point.”

……………………………………………………………………………………………………………………..

References:

https://www.lightreading.com/finance/things-are-getting-tight-for-us-telecom-network-operators

Bloomberg: Higher borrowing costs hurting indebted wireless companies; industry is 2nd largest source of distressed debt

 

https://techblog.comsoc.org/category/affordable-connectivity-program-acp/

https://www.spglobal.com/ratings/en/research/articles/240226-high-interest-rates-and-massive-debt-burdens-will-pressure-u-s-telecom-and-cable-speculative-grade-ratings-in-13012058

https://www.reuters.com/business/media-telecom/comcast-tops-revenue-estimates-streaming-growth-strong-park-attendance-2024-04-25/

Telecom layoffs continue unabated as AT&T leads the pack – a growth engine with only 1% YoY growth?

High Tech Layoffs Explained: The End of the Free Money Party

 

Bloomberg: Higher borrowing costs hurting indebted wireless companies; industry is 2nd largest source of distressed debt

S&P Global estimates total outstanding debt in the speculative-grade U.S. telecom and cable sector is about $275.4 billion. Most of the telecom debt issuers took advantage of historically low interest rates in 2020 and 2021 to refinance their capital structures and push out maturities until 2026 and 2027.   Wireless carriers spent heavily on acquiring spectrum licenses and building out their 5G networks, which led to significant debt loads and a very low ROI.  For example, AT&T’s total debt increased significantly due to the C-band auction for 5G spectrum. It jumped from $182.98 billion at the end of 2020 to $209.08 billion in March 2021.  Similarly, Verizon’s total debt climbed from $151.24 billion to $180.70 billion during the same period.  Large debt loads can limit a company’s ability to invest in new technologies and infrastructure.

Billionaires who built their fortunes building out wireless networks when debt cost almost nothing are seeing their wealth evaporate. For example:

  • Altice founder Patrick Drahi’s wealth has dropped almost 18% to $4.4 billion this year, according to the Bloomberg Billionaires Index.  Altice has been the poster child for the industry’s travails recently. Last month, Altice spokesmen told creditors of its French operations that they would have to take a hit (impairment charge) in the restructuring of the €24.3 billion debt pile.
  • Rakuten Group Inc.’s Hiroshi Mikitani’s fortune has shrunk 69% since 2021 after a push into mobile increased the firm’s losses.  Rakuten announced earlier this month that it was looking at combining its financial units into a single group.
  • Dish Network Corp. Chairman Charles Ergen has seen his riches shrink nearly 80% in less than three years as the company tries to transition from pay-TV to wireless services. Dish has been searching for ways to address upcoming debt maturities after scrapping a debt swap earlier this year when bondholders pushed back on the deal.  Private credit firms have offered financing, Bloomberg News previously reported.

The stumbles in wireless highlight wider troubles across telecommunications, media and technology. Communications is the worst-performing junk sector in the US this year, Bloomberg Intelligence credit analyst Stephen Flynn wrote in a note this week, with several members of the index burdened with high leverage and facing large maturity walls.  Annual returns from the industry’s junk bonds have turned negative this year as shown in this chart:

Wireless is the second biggest source of distressed debt globally (#1 is real estate) after the debt pile swelled to $35.3 billion, according to data compiled by Bloomberg News. That’s up more than 80% since early January!  The fall in Altice bond prices sent the total level of distressed debt globally last week to the highest level since the middle of January.

Digicel, the Caribbean mobile operator founded by Irish businessman Denis O’Brien, imposed losses on bondholders and lenders earlier this year via what ratings company Moody’s described as a “distressed exchange.”

In summary, managing debt and addressing bad debt are crucial for the wireless industry to maintain financial stability and sustain growth. As interest rates fluctuate and operational challenges persist, wireless telecom companies must find effective strategies to mitigate these risks and optimize revenue assurance.

References:

https://www.bloomberg.com/news/articles/2024-04-27/telecom-tycoons-feel-pain-from-rising-mobile-woes-credit-weekly

https://www.bnnbloomberg.ca/telecom-tycoons-feel-pain-from-rising-mobile-woes-1.2065998

Where Have You Gone 5G? Midband spectrum, FWA, 2024 decline in CAPEX and RAN revenue

Telecom layoffs continue unabated as AT&T leads the pack – a growth engine with only 1% YoY growth?

MTN Consulting: Generative AI hype grips telecom industry; telco CAPEX decreases while vendor revenue plummets

Dell’Oro: Telecom Capex Growth to Slow in calendar years 2022-2024

FT: Telecom & Technology on the Ropes: Challenging Markets & Too Much Debt

ZTE reports higher earnings & revenue in 1Q-2024; wins 2023 climate leadership award

China’s ZTE reported 3.7% higher Q1-2024 earnings of 2.7 billion Chinese yuan (US$380 million), with sales up 5% to RMB30.6 billion ($4.2 billion).

With decreased CAPEX from China’s network operators, ZTE accelerated its transition from full connectivity to “connectivity + computing power” ino order to expand its addressable market.

Internationally, ZTE said it “continued to achieve continuous breakthroughs with major telecom operators in key countries, sustaining its growth trend. Simultaneously, in terms of government-enterprise business and consumer business, the company intensified its expansion in these two sectors, with both segments returning to rapid growth paths.”

That’s in sharp contrast to its European network equipment rivals, who have been exposed by the worldwide 5G wind-down. Nokia lost a fifth of its revenue in Q1; Ericsson reported a 14% slide, with network sales off by 19%.

ZTE didn’t break out its segment figures for Q1, but its 2023 full-year filing showed it remains heavily reliant on its home market, which contributed just under 70% of total revenue. Both ZTE and Huawei derive at least 80% of network spending by China’s state-owned telco giants (China Mobile, China Telecom, China Unicom).

ZTE, leveraging its long-term accumulation of ICT full-stack full-domain capabilities, is pursuing strategic opportunities in digitization, intelligence, and decarbonization. Keeping pace with the wave of AI development, the company deepens its business layout of “connectivity + computing power,” providing global customers in high-speed networks, computing infrastructure, and industrial digital transformation with an open and innovative intelligent network foundation.

ZTE says it’s committed to deeply integrating AI technology with terminals to drive product innovation and intelligent upgrades, thus constructing a smart ecosystem.  For terminals, ZTE has proposed the concept of “AI for All,” launched an AI-driven all-scenario intelligent ecosystem 3.0, and released a variety of innovative products and technologies.

In the first quarter of 2024, the company’s research and development expenses were RMB 6.38 billion, accounting for 20.9% of operating revenue. That provided sustained strong impetus for business innovation and product enhancement/competitiveness.

Moving forward, ZTE says it is committed to actively embracing the digital construction wave, accelerating its transition towards “connectivity + computing power,” thereby driving the company’s high-quality development. The company will continue collaborating with industry partners to establish highly efficient, green, and intelligent digital infrastructure, aiming to advance the development of the global ICT industry.

……………………………………………………………………………………………………..

Separately, ZTE was honored with 2023 Climate Leadership Award (A list) at “Embracing International Disclosure Standards and Amplify the Voice of Chinese Companies – CDP China 2023 Annual Report Release and Award Ceremony.” This recognition comes as ZTE’s case study, “Target-Driven, Layered Decoding: Pathways and Actions to Achieve Climate Goals” was featured in 2023 CDP China Corporates Disclosure Report. The event further acknowledged ZTE’s outstanding contributions to climate change mitigation and sustainable development.

Summer Chen, Vice President and General Manager of Branding & PR Strategies at ZTE, shared the company’s actions and leadership in promoting green innovations during her speech titled “Shaping Digital Innovation for a Shared Sustainable Future.” She stated, “Green and sustainable development is a global consensus, with digital intelligence playing a pivotal role. In line with this trend, ZTE has dedicated itself to green and low-carbon innovations, and received an A rating for its leading climate action in CDP Climate Change 2023 Questionnaire, an honor achieved by only 2% of global participants.”

Ms. Chen emphasized ZTE’s commitment to green development, leveraging technological innovation to shape an eco-friendly ecosystem. This commitment is underpinned by four dimensions: green operations, green supply chain, green digital infrastructure and green empowerment, contributing to achieve carbon peak and carbon neutrality goals. ZTE focuses on energy conservation and carbon reduction within its business operations, while empowering industries to foster new quality productive forces, aiming to set a global benchmark as a green, sustainable, and low-carbon tech company.

References:

https://www.zte.com.cn/content/dam/zte-site/investorrelations/en_quarter_report/20240425.pdf

https://www.zte.com.cn/global/about/news/zte-reports-revenue-of-rmb-3058-billion-and-net-profit-of-rmb-274-billion-in-q1-2024-expanding-business-horizons-with-connectivity-computing-power.html

https://www.zte.com.cn/global/about/news/zte-scoops-2023-climate-leadership-award-a-list.html

https://www.lightreading.com/finance/zte-defies-capex-slump-with-higher-q1-earnings-revenue

https://www.zte.com.cn/content/dam/zte-site/investorrelations/en_annual_report/20240326.pdf

China Mobile & ZTE use digital twin technology with 5G-Advanced on high-speed railway in China

Türk Telekom and ZTE trial 50G PON, but commercial deployment is not imminent

ZTE sees demand for fixed broadband and smart home solutions while 5G lags

Vodafone Idea (Vi) to launch 5G services “soon;” Awards optical network equipment contract to ZTE

TM and ZTE Malaysia to develop next-gen hybrid cloud 5G core network

T-Mobile & EQT Joint Venture (JV) to acquire Lumos and build out T-Mobile Fiber footprint

T-Mobile and EQT, a purpose-driven global investment organization, today announced they have entered into a joint venture (JV) with EQT’s Infrastructure VI fund (EQT) that will acquire fiber-to-the-home platform Lumos from EQT’s predecessor fund EQT Infrastructure III.

The JV will bring T-Mobile’s retail, marketing, brand and customer experience strengths together with EQT’s fiber infrastructure investment expertise. Together they will acquire Lumos’ scalable fiber network build capabilities to deliver best-in-class high-speed fiber internet connectivity to customers across the U.S. without access to fiber today. After the transaction closes, Lumos, which currently reaches 320,000 households over 7,500 route miles with fiber optic internet and home wi-fi service in the Mid-Atlantic, will transition to a wholesale model with T-Mobile as the anchor tenant owning customer relationships and leveraging its brand to attract new subscribers. The JV will focus on market identification and selection, network engineering and design, network deployment, and customer installation.

“As the demand for reliable, low-latency connectivity rapidly increases, this deal is a scalable strategy for T-Mobile to take a significant step forward in expanding on our broadband success and continue shaking up competition in this space to bring even more value and choice to consumers,” said Mike Sievert, CEO of T-Mobile. “Together with EQT and Lumos, T-Mobile is building on our position as the fastest growing broadband provider in the country in a value-accretive way that complements our sustained growth leadership in wireless. Customers – homes and businesses – who get the fast, affordable, and reliable internet they need will be the real winners,” he added.

T-Mobile provides a unique value proposition and much-needed reliable connectivity to homes and businesses across the country through its 5G Internet, a fixed wireless internet service on its 5G network that is available to more than 50 million households and businesses nationwide and serves over 5 million customers, as well as T-Mobile Fiber, which has launched in parts of 16 U.S. markets. Those launches have shown consumer demand for broadband that T-Mobile cannot meet through its fallow capacity fixed wireless product alone, and many customers want the speed and reliability that only fiber can provide.

Jan Vesely, Partner within EQT’s Infrastructure Advisory Team said, “We are proud to have partnered with Lumos over the past six years to rapidly scale the company and roll out fiber to underserved markets, and we look forward to continuing to leverage EQT’s considerable digital infrastructure and fiber expertise to support the significant fiber buildout ambitions of T-Mobile and the JV. This new effort will build critical fiber broadband infrastructure that will enable remote work, education, and healthcare use cases across the country. We have worked with T-Mobile as a customer across many of our existing digital infrastructure investments and are delighted to build on that relationship and partner with T-Mobile on this opportunity to roll out fiber to underserved Americans.”

“Lumos takes great pride in our achievements, as we have successfully delivered fiber to hundreds of thousands of homes and businesses, marking a significant acceleration in our growth. Our commitment to enhancing customers’ lives through the development of a network prepared for the demands of tomorrow remains steadfast,” Brian Stading, CEO of Lumos. “With the support of our private equity partner, EQT, and leveraging the strength of the T-Mobile brand and unrivaled customer experience, Lumos is set to expedite our network expansion. This joint venture will amplify our ability to change lives through the transformative power of fiber optic internet.”

The transaction is expected to close in late 2024 or early 2025, subject to customary closing conditions and regulatory approvals. At closing, T-Mobile is expected to invest approximately $950 million in the JV to acquire a 50% equity stake and all existing fiber customers, with the funds invested by T-Mobile being used by Lumos for future fiber builds. The next capital contribution by T-Mobile out of an additional commitment of approximately $500 million is anticipated between 2027 and 2028. These combined investments are expected to allow Lumos to reach 3.5 million homes passed by the end of 2028. T-Mobile continues to expect to complete its remaining authorization for share repurchases and dividends in 2024.

With this transaction, EQT Infrastructure VI is expected to be 35-40% percent invested (including closed and/or signed investments, announced public offers, if applicable, and less any expected syndication) based on target fund size and subject to customary regulatory approvals.

References:

https://www.t-mobile.com/news/business/t-mobile-eqt-jv-to-acquire-lumos

https://t-mobilefiber.com/

T-Mobile US, Ericsson, and Qualcomm test 5G carrier aggregation with 6 component carriers

Ookla: T-Mobile and Verizon lead in U.S. 5G FWA

T-Mobile combines Millimeter Wave spectrum with its 5G Standalone (SA) core network

FCC restores net neutrality order, but court challenges loom large

The FCC voted on Thursday, April 25th along party lines to pass its order on Safeguarding and Securing the Open Internet, restoring net neutrality and reestablishing the Commission’s Title II authority over broadband services.  The restored “net neutrality” rules prevent broadband internet service providers/ISPs (e.g. Comcast and AT&T) from favoring some sites and apps over others.  The vote was taken at the FCC’s open meeting for the month of April.  Democrats on the FCC voted to restore net neutrality and Title II rules. The issue will face inevitable court challenges and is likely to be reversed if Donald Trump wins the November presidential election.

As a result of the vote, the FCC restores fundamental authority to provide effective oversight over broadband service providers, giving the Commission essential tools to:

Protect the Open Internet – Internet service providers will again be prohibited from blocking, throttling, or engaging in paid prioritization of lawful content, restoring the rules that were upheld by the D.C. Circuit in 2016.

Safeguard National Security – The Commission will have the ability to revoke the authorizations of foreign-owned entities who pose a threat to national security to operate broadband networks in the U.S. The Commission has previously exercised this authority under section 214 of the Communications Act to revoke the operating authorities of four Chinese state-owned carriers to provide voice services in the U.S. Any provider without section 214 authorization for voice services must now also cease any fixed or mobile broadband service operations in the United States.

Monitor Internet Service Outages – When workers cannot telework, students cannot study, or businesses cannot market their products because their internet service is out, the FCC can now play an active role.

Here are a few FCC commissioner comments:

“Broadband is now an essential service. Essential services, the ones we count on in every aspect of modern life, have some basic oversight. So let’s be clear about what we are doing today. This agency, the nation’s leading communications authority, believes every consumer deserves Internet access that is fast, open and fair. That is why we determine that the Federal Communications Commission should be able to assist consumers and take action when it comes to the most important communications of our time. And that’s broadband. This is common sense,” said FCC Chairwoman Jessica Rosenworcel.

FCC Chairwoman Jessica Rosenworcel presides at the FCC’s open meeting on Thursday, April 25, 2024.(SOURCE: FCC LIVESTREAM)

Republican FCC Commissioner Brendan Carr offered a different opinion during a nearly 35-minute diatribe: 

“Today’s order is not about correcting a market failure. Broadband access is more vibrant and competitive than ever, no matter how you slice the reams of data,” said Carr. “Will ISPs invest as intensely when the rules of the road are opaque, when business choices can be second guessed without notice, when regulators reserve the right to dictate the rate of return or when upgrades and innovations require more and more paperwork and approvals? Uncertainty riddles every aspect of this order … I’m confident that we will right the ship, and I’m certain that the courts will overturn this unlawful power grab.”

The vote drew expected reactions from industry and consumer groups. Those in favor of the ruling celebrated, while still expressing dissatisfaction with a few “shortcomings” of the order.  Andrew Jay Schwartzman, Senior Counselor at the Benton Institute for Broadband & Society said:

“Today’s vote provides welcome, if long overdue, protections for all Americans. Despite a few shortcomings, this is the most important thing the FCC can do to promote free speech, competition, public safety, and national security.  The Benton Institute for Broadband & Society would have preferred that the Commission continued the debate on whether or not broadband providers should contribute to the Universal Service Fund and that it had taken a more proactive stance toward wireless companies’ efforts to create loopholes to avoid regulation of some 5G services. But those shortcomings do not change the fact that today is a great day for internet freedom.”

On the opposition front, industry trade groups called the rules “heavy-handed” and indicated their intent to file lawsuits.

“ACA Connects will continue to support efforts, including litigation, to overturn these heavy-handed, unnecessary utility-style regulations, which only serve to discourage development of robust and reliable broadband service for all Americans,” said Grant Spellmeyer, president and CEO of ACA Connects, in an emailed statement.

“WISPA is disappointed by today’s action to impose utility regulation on the broadband industry,” said Louis Peraertz, VP of policy for the fixed wireless trade group WISPA–The Association for Broadband Without Boundaries. “Once the final Order is published, WISPA will carefully review it and determine what legal recourse we should take in order to ensure that our members can continue to provide their local communities with reliable high speed broadband service.”

References:

https://www.fcc.gov/document/fcc-restores-net-neutrality

https://www.fcc.gov/net-neutrality

https://www.lightreading.com/broadband/fcc-passes-net-neutrality-order-again-for-now

Analysis: FCC attempt to restore Net Neutrality & U.S. standards for broadband reliability, security, and consumer protection

FCC Draft Net Neutrality Order reclassifies broadband access; leaves 5G network slicing unresolved

FCC Votes to Reverse Net Neutrality & No Longer Regulate Broadband Internet Services

Page 2 of 200
1 2 3 4 200