ABI Research: Network-as-a-Service market to be over $150 billion by 2030
Global technology market intelligence firm ABI Research expects the Network-as-a-Service (NaaS) [1.] market to expand significantly, reaching over $150 billion by 2030.
Note 1. NaaS is a secure, cost-effective subscription-based model that lets businesses of all sizes consume network infrastructure on-demand and as needed. It offers scale-up or scale-down flexibility that many businesses require to stay competitive in today’s unpredictable data traffic environment.
Networks have been commoditized over the last few years and the cost of connectivity has fallen. Value has shifted from network infrastructure to the services built on top of the network. Enterprises need scalable solutions that offer cloud-native agility, multi-cloud accessibility, and services that can dynamically fluctuate to support digital transformation. This has led to significant interest in the NaaS market, according to ABI Research.
Image Credit: Verizon
The firm’s blog promoting their NaaS report notes that telecom operators currently lack business models that allow them to build on their physical connectivity advantages to gain control of the NaaS market.
“Telcos must seize the opportunity to dominate the NaaS market, as revenue generated from connectivity provision will continue to decline. However, their investment strategy, business, operational, and ‘go-to-market’ models are not ready to deliver a competitive NaaS solution, explains Reece Hayden, Distributed & Edge Computing Analyst at ABI Research. “The market is immature and highly fragmented, but telco market revenue will exceed US$75 billion by 2030 if they act now and transform technology, culture, and structure to better align with the requirements of the NaaS market.”
Currently, telcos face NaaS competition from two key players. Interconnection providers (e.g., Megaport and Packet Fabric) have built their agile solutions from the ground up, focusing energy on virtualization and software specialization. At the same time, cloud infrastructure providers (e.g., Amazon AWS, Google GCP, and Microsoft Azure) continue to offer cloud-specific NaaS solutions.
“Telecom operators remain in the best position to lead the market as long as they recognize their service/innovation limitations, invest/restructure successfully, and focus their messaging appropriately,” according to Hayden.
Telcos must look to transform three areas. First, telcos must virtualize network infrastructure to deliver cloud-native services and continue to invest heavily to integrate automation (AIOps) throughout network services, including paying attention to 5G slice-as-a-service and other ‘value-add services’ which are critical to monetization.
Second, telecom operators must restructure business and operating models with a look toward openness and partnerships across the industry and reduce internal fragmentation to drive cross-business service continuity.
Third, telcos must look to develop a problem-solving culture and realign their ‘go-to-market’ strategy to better position themselves within the NaaS market. This involves developing vertical and enterprise size-specific sales strategies and establishing consultative processes that educate enterprises to bridge the ever-present gap between awareness and understanding. Telco executives should focus more on service provision and up/reskilling their workforce.
NaaS adoption will rapidly grow over the next eight years. ABI Research expects that by 2030, just under 90% of enterprises will have migrated at least 25% of their global network infrastructure to be consumed within a NaaS model. However, this process will not be organic, suppliers will have to drive education and consultative practices, as significant skepticism within SMEs and MNCs pervades the market. “To drive short-run sales, suppliers must educate and tailor their sales strategy to focus on first adopters (startups and SMEs) and specific verticals,” Hayden recommends.
The outlook in the NaaS market is hugely positive for telcos, especially given the rising demand from startups and SMEs. “But a lot still needs to be done to bridge technological, cultural, and structural gaps,” Hayden concludes. “Although it seems like an expensive and risky uphill battle, developing NaaS will be crucial to the long-term upside. But, if telcos miss this opportunity and drop the ball, interconnection providers and hyperscalers will be waiting and willing to catch it.”
These findings are from ABI Research’s Network-as-a Service: Business, Operational, and Technological Strategies for Telco Digital Service Transformation application analysis report. This report is part of the company’s Distributed and Edge Computing research service, which includes research, data, and ABI Insights. Based on extensive primary interviews, Application Analysis reports present an in-depth analysis of key market trends and factors for a specific application, which could focus on an individual market or geography.
ABI’s NaaS report does not include IT equipment and software vendors like Cisco, Dell Technologies, and Hewlett Packard Enterprise (HPE), which have been bolstering their own NaaS hardware and software stacks while established sales channels into most enterprises.
About ABI Research:
ABI Research is a global technology intelligence firm delivering actionable research and strategic guidance to technology leaders, innovators, and decision makers around the world. Our research focuses on the transformative technologies that are dramatically reshaping industries, economies, and workforces today.
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References:
https://www.verizon.com/about/news/network-service-explained
Russian government to allocate 24.25-27.5 GHz band for 5G services (Russian made base stations)
The Russian Ministry of Digitization has proposed the allocation of the 24.25-27.5 GHz band [1.] for 5G services. The band is currently used by radio-relay stations. The 4 GHz band is also planned to be used by public networks, for 5G services.
Note 1. While WRC19 allocated the frequency bands of 24.25-27.5 GHz, 37-43.5 GHz, 45.5-47 GHz, 47.2-48.2 and 66-71 GHz for the deployment of 5G networks, ITU-R WP5D has not yet agreed on the revision of M.1036 – the Frequency Arrangements for Terrestrial IMT (including 5G).
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The Russian Ministry also proposed the conversion of the 4 GHz band to “civilian,” which will help Russian network operators simplify the necessary expertise for 5G networks and obtain guarantees of the use of the band. Part of the initiative is expected to go into effect in 2023. It will help improve Internet speed and facilitate the introduction of 5G in Russia.
In late June 2022, the Ministry of Digital Science reported that the 3.4-3.8 GHz frequency range [2.] will not be used for 5G networks. Instead, a frequency band of 4.8-4.9 GHz was chosen for Russia’s 5G networks.
Note 2. The Ministry noted that the 3.4-3.8 GHz frequency range is a priority for 5G, but in Russia it is occupied by other services, including power services. After the end of the ten-year licensing period in 2021, operators asked the State Commission on Radio Frequencies (GKRCH) to extend the licenses for another year so as not to abruptly disconnect customers. The SCRF extended the operators’ permission to use the frequencies until July 1, 2022. Rostelecom, MegaFon and VimpelCom filed a petition to extend the permit for frequencies of 3.4-3.8 GHz, used to provide wireless Internet access services using WiMAX technology, but were refused.
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The ministry also expects that the implementation of 5G networks will be carried out with network equipment of local origin. That edict was promulgated BEFORE sanctions on Russia for its war in Ukraine. In September 2021, the Ministry of Finance of Russia decided that by 2023 only Russian made base stations could be installed on the communication network. It is assumed that within 2-3 years mass production of such LTE standard stations will be organized, then it is planned to switch to 5G standard base stations.
References:
https://tadviser.com/index.php/Article:Frequencies_for_5G_in_Russia
WRC 19 Wrap-up: Additional spectrum allocations agreed for IMT-2020 (5G mobile)
China’s telecom sector had steady growth during January-May 2022 (Updated)
China’s telecommunication industry registered steady growth in the first five months of the year, with strong expansion in emerging businesses and 5G services, official data shows.
The telecom sector had 665 billion yuan (99.46 billion U.S. dollars) in total revenue during the period, up 8.5 percent year on year, according to China’s Ministry of Industry and Information Technology (MIIT).
Emerging businesses, including those in the big data, cloud computing, internet data center and Internet of Things sectors, continued to expand notably in the period.
The combined revenue of the emerging businesses of China’s three telecom giants — China Telecom, China Mobile and China Unicom — surged 34.3 percent year on year to 128.3 billion yuan, accounting for 19.3 percent of the sector’s total revenue, the ministry said.
At the end of May, China had 1.7 million 5G base stations, accounting for 16.7 percent of the country’s mobile network base stations. Some 275,000 5G base stations were built in the first five months of the year.
The data also shows that 5G mobile phone users of the three telecom giants reached 428 million at the end of May, representing 25.8 percent of China’s total mobile phone users.
–>Much more telecom data in the Addendum below.
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Image by ADMC from Pixabay
At the end of May, China had a total of 1.7 million 5G base stations, accounting for 16.7% of the country’s mobile network base stations. According to the official data, a total of 275,000 5G base stations were built in the first five months of 2023.
China ended May 2022 with a total of 899.3 million subscribers classified as having 5G plans (even though many only had 4G endpoint devices), according to the carriers’ latest available figures. China network operators recorded a net gain of 30.18 million 5G subscribers in May.
China Mobile, the world’s largest operator in terms of subscribers, added a total of 18.21 million 5G subscribers during last month. The operator said it ended May with 495.13 million 5G subscribers, compared to 221.95 million 5G customers in May 2021.
China Mobile had added a total of 108.32 million subscribers in the 5G segment during the first five months of the year.
Rival operator China Unicom said it added a total of 4.93 million 5G subscribers during May. The carrier ended the month with 179.70 million 5G subscribers.
Meanwhile, China Telecom added 7.04 million 5G subscribers last month to take its total 5G subscribers base to 224.47 million. During the first five months of the year, the telco had added a total of 36.67 million 5G subscribers.
China expects to end this year with nearly 2 million 5G base stations, according to previous reports. Chinese carriers reportedly deployed a total of 654,000 base stations nationwide during last year.
The country’s 5G networks now covers all prefecture-level cities, more than 98% of county-level urban areas and 80% of township-level urban areas across the country..
Earlier this year, the Chinese government had unveiled plans to more than triple the number of 5G base stations over the next four years, targeting a total of 3.64 million by end-2025.
Under this plan, China aims to have 26 5G base stations for every 10,000 people by the end of 2025. In comparison, in 2020, there were five 5G base stations for every 10,000 people in China.
China is expected to reach 892 million connections in the 5G segment in 2025, according to a report recently published by the GSMA.
According to the ‘The Mobile Economy China” report, GSMA expects 5G connections in the country to represent 52% of total mobile lines in 2025, compared to 29% in 2021.
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| Indicator name | unit | end of the month
arrive |
than the end of last year
net increase (+), reduce(-) |
year-on-year
increase(%) |
| Total landline subscribers | million households | 18170 | 100 | 0.2 |
| Total mobile phone users | million households | 166249 | 1966 | 3.4 |
| Of which: 5G mobile phone users | million households | 42819 | 7334 | 109.2 |
| Of which: Mobile Internet users | million households | 143568 | 2003 | 4.3 |
| Internet broadband access users | million households | 55868 | 2289 | 10.6 |
| Of which: FTTH/O users | million households | 52976 | 2426 | 11.5 |
| Among them: users with a rate of 100M or more | million households | 52291 | 2443 | 13.4 |
| Among them: users with a rate above 1000M | million households | 5591 | 2135 | 358.6 |
| Of which: urban broadband access users | million households | 39415 | 1606 | 10.8 |
| rural broadband access users | million households | 16453 | 683 | 10.1 |
| Number of IPTV (Internet TV) users | million households | 36392 | 1540 | 10.2 |
| Number of Cellular IoT End Users | million households | 159 498 | 19 576 | 26.8 _ |
| Fixed telephone penetration | Department/100 people | 12.9 | 0.1 | – |
| Mobile phone penetration | Department/100 people | 117.9 | 1.5 | – |
http://english.news.cn/20220703/41a9776edd9d44c0ad055252c4e35818/c.html
https://www.miit.gov.cn/gxsj/tjfx/txy/art/2022/art_b8491abea6324484a19b5438b08761a4.html
China’s telecom sector revenues reach almost $100bn in Jan-May
FCC allows SpaceX to connect Starlink to boats, planes, moving vehicles
The U.S. Federal Communications Commission (FCC) on Thursday authorized Elon Musk’s SpaceX to use its Starlink satellite internet network with moving vehicles, green-lighting the company’s plan to expand broadband offerings to commercial airlines, shipping vessels and trucks.
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Starlink, a fast-growing constellation of internet-beaming satellites in orbit, has long sought to grow its customer base from individual broadband users in rural, internet-poor locations to enterprise customers in the potentially lucrative automotive, shipping and airline sectors.
“Authorizing a new class of terminals for SpaceX’s satellite system will expand the range of broadband capabilities to meet the growing user demands that now require connectivity while on the move,” the FCC said in its authorization published Thursday, echoing plans outlined in SpaceX’s request for the approval early last year.
SpaceX has steadily launched some 2,700 Starlink satellites to low-Earth orbit since 2019 and has amassed hundreds of thousands of subscribers, including many who pay $110 a month for broadband internet using $599 self-install terminal kits.
The Hawthorne, California-based space company has focused heavily in recent years on courting airlines for in-flight WiFi via Starlink backhaul, having inked its first such deals in recent months with Hawaiian Airlines and semi-private jet service JSX. Delta Airlines has reportedly run some tests with SpaceX/Starlink.
“We’re obsessive about the passenger experience,” Jonathan Hofeller, Starlink’s commercial sales chief, said at an aviation conference earlier this month. “We’re going to be on planes here very shortly, so hopefully passengers are wowed by the experience.”
SpaceX’s proposal for ESIMs includes spectrum in the range of 12.2-12.7GHz – a slice of spectrum generally known as the 12GHz band. RS Access (a company funded by Michael Dell’s investment firm) and Dish Network opposed SpaceX’s proposed use of the 12GHz band based on interference concerns, but the FCC is still analyzing it and has yet to make a final ruling.
However, the FCC has concluded that authority of operations in the 12GHz band serves the public interest, as it will expand broadband into unserved and underserved areas. As a condition of the FCC’s approval, ESIM operations of SpaceX “must accept any interference received from both current and future services authorized” in the 12GHz band “and must not cause harmful interference to any authorized service, whether licensed or not,” the FCC’s Sullivan explained.
The FCC’s CONCLUSION (from the order):
We conclude that grant of SpaceX’s requests for ESIM authorizations and Kepler’s request for ESV authority, including for operations in the 12.2-12.7 GHz band, as conditioned and set forth herein, will serve the public interest by enabling SpaceX and Kepler to offer expanded broadband capabilities and serve unserved and underserved areas.
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“Authorizing a new class of terminals for SpaceX’s satellite system will expand the range of broadband capabilities to meet the growing user demands that now require connectivity while on the move, whether driving an RV across the country, moving a freighter from Europe to a US port, or while on a domestic or international flight,” the FCC’s international bureau chief, Tom Sullivan, wrote in the order (PDF).
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SpaceX, under an earlier experimental FCC license, has been testing aircraft-tailored Starlink terminals on Gulfstream jets and U.S. military aircraft.
Elon Musk, the founder and CEO of SpaceX, has previously said that the types of vehicles Starlink was expected to be used with pursuant to Thursday’s authorization were aircraft, ships, large trucks and RVs. Musk, also the CEO of electric car maker Tesla Inc, had said he didn’t see “connecting Tesla cars to Starlink, as our terminal is much too big.”
Photo credit: Panther Media GmbH / Alamy Stock Photo
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FCC clearance will enable Starlink to pursue connectivity agreements more aggressively in markets such as aviation, which is already covered by competitors such as Viasat and Hughes Network Systems. Those companies rely on a much smaller number of geosynchronous (GEO) satellites sitting at higher orbits than Starlink’s LEO constellation. However, Hughes Network Systems is also in the LEO business through its partnership with and investment in OneWeb.
Competition in the low-Earth orbiting satellite internet sector is fierce between SpaceX, satellite operator OneWeb, and Jeff Bezos’s Kuiper project, a unit of e-commerce giant Amazon.com which is planning to launch the first prototype satellites of its own broadband network later this year.
References:
ITU-R Reports in Progress: International Mobile Telecommunications (IMT) including IMT 2020
Working documents toward preliminary draft new ITU-R reports from WP5D:
M.[IMT.MULTIMEDIA] – Capabilities of the terrestrial component of IMT-2020 for multimedia communications
M.[IMT.INDUSTRY] – Addresses the usage, technical and operational aspects and capabilities of IMT for meeting specific needs of societal, industrial and enterprise usages.
M.[IMT.AAS] – Measurements and mathematical modelling of Advanced Antenna Systems (AAS) in IMT-2020 systems
M.[HIBS-CHARACTERISTICS] – Related to WRC-23 agenda item 1.4 – Spectrum needs, usage and deployment scenarios, and technical and operational characteristics for the use of high-altitude platform stations as IMT base stations (HIBS) in the mobile service in certain frequency bands below 2.7 GHz
New draft Recommendations:
M.[FSS_ES_IMT_26GHz] – Guidelines to assist administrations to mitigate interference from FSS earth stations into IMT stations operating in the frequency bands 24.65-25.25 GHz and 27-27.5 GHz
References:
https://www.itu.int/md/R19-WP5D-C-1361/en
ITU-R Future Report: high altitude platform stations as IMT base stations (HIBS)
ITU-R Future Report: high altitude platform stations as IMT base stations (HIBS)
Virgin Media O2 deploys UK’s first 5G-connected hospital to transform healthcare
Virgin Media O2 (VMO2) and the NHS have collaborated to build the UK’s ‘first 5G connected hospital,’ which they say will transform healthcare. The Maudsley Smart Hospital and Maudsley Smart Pharmacy trials are funded by NHS digital with tech provided by VMO2 and Nokia, and are designed to explore the efficiency, safety and security benefits of using 5G-connected technologies in hospitals, across the usual catch-all 5G adjacent sectors of IoT, AR and AI.
Two wards at al Bethlem Royal Hospital in South London are now using dedicated, near-real-time connectivity to power e-Observations, where clinicians use handheld devices to update patient records, saving valuable time and improving accuracy. It seems to be implied interacting with the equipment over 5G will be more efficient than using the hospital’s WiFi network.
The 5G trials will also include an IoT innovation lab and platform, in partnership with Bruhati (South London and Maudsley has made Bruhati its partner for providing IoT technology to the Trust). This will look at smart, connected use cases – including remotely monitoring medicine fridges to ensure drugs are stored at the optimum temperature and thereby reducing expensive waste, tracking the air quality inside wards, and monitoring occupancy of desks and meeting rooms in the hospital.
An Augmented Reality (AR) tool called Remote Expert will allow maintenance workers in other hospitals to pop on a helmet and remotely help fix problems in some way, while an AI tool called Spatial Insights generates anonymised heat maps of crowd movement from CCTV footage, which will apparently help them to better plan layouts in the future. There is also talk of smart devices and monitoring to reduce medicine waste and track the air quality in wards, which sounds useful enough.
Mike Smith, Large Enterprise & Public Sector Director at Virgin Media O2 Business said: “The NHS has been a cornerstone of British society for nearly 75 years, and today, we’re proud to announce the switch-on of the UK’s first 5G-connected hospital – showing how next-generation technology can help create a smarter, modern healthcare service for everyone. Our aim is to map out the rollout of wireless and smart hospital connectivity across the NHS estate over the next three to five years. Trials like this are the embodiment of our mission to upgrade the UK, and a clear sign of the role we can play in helping to shape the NHS of the future.”
Stuart MacLellan, Acting Chief Information Officer at South London and Maudsley Foundation Trust said: “Exploring and using the latest technology supports our core strategic aim to deliver outstanding mental health care for people who use our services, their carers and families. We are proud to be partnering with Virgin Media O2 Business to create the UK’s first 5G-connected hospital, which enables us to use digital innovations to improve patient outcomes. This is a very exciting step forward.”
Kester Mann, technology analyst and Director, Consumer and Connectivity at CCS Insight, said: “This is a landmark moment for the UK telecoms and healthcare sectors. Dedicated 5G in hospitals can open the door to a range of new applications such as real-time tracking of patients’ conditions, remote support and round-the-clock monitoring of medicines and equipment. Its high throughput and low-latency characteristics can also improve the efficiency and security of existing operations, making healthcare services smarter, more accurate and more effective.”
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If the NHS trials can demonstrate how the implementation of AI heatmaps for planning layouts and AR headsets for maintenance workers can start taking chunks out of how long it takes to be treated for immediate and long term conditions, then everyone will surely be behind rolling it out elsewhere.
References:
VMO2 and Nokia help create UK’s ‘first 5G connected hospital’
Rakuten Mobile in joint venture with Tokyo Electric Power Company (TEPCO) to expand 4G/5G network
Japanese wireless network operator Rakuten Mobile has established a new joint venture company in its domestic market with Tokyo Electric Power Company (TEPCO) to deploy base stations at existing power grid sites as it looks to further expand its 4G and 5G coverage in a more efficient way.
The new company, called Rakuten Mobile Infrastructure Solution, began operating in Tokyo on July 1st. The entity has an initial nominal value of ¥300m (approximately $2.2m), with Rakuten Mobile owning a 51% stake in the venture and TEPCO holding the remaining 49% stake, the operator said in a statement (available in Japanese here).
Rakuten Mobile Infrastructure Solution is set to contribute to the telco’s vision for a stable communication environment by enhancing the efficiency of maintaining base stations through effective use of public assets. The new company will also look to develop installation specifications for Rakuten Mobile’s base station equipment and manage installation-related works.
The Japanese telecom industry upstart, which already covers 96% of the Japanese population with its 4G service, noted it is using “some power assets” to further build out its network.
Through the new company, Rakuten Mobile plans to expand its 4G and 5G networks, boost the density of base station deployments and “strengthen the development of communication infrastructure with the aim of providing stable services”. As it will use the existing power assets of TEPCO for the purpose (alongside the power company’s construction capabilities and know-how), the telco believes it can “improve the cost efficiency of base station maintenance”.
This is not the first engagement for the two companies: In March 2018, Rakuten Mobile secured an agreement to make use of TEPCO’s steel towers, power distribution poles, building roofs and other infrastructure, just a few months before it began building its greenfield cellular network, and in 2019 was part of a broader mobile operator initiative with TEPCO related to power grid infrastructure sharing.
References:
Google’s Equiano subsea cable lands in Namibia en route to Cape Town, South Africa
Google’s high-capacity Equiano subsea cable has landed at Swakopmund in Namibia en route to its end point at Melkbosstrand, north of Cape Town, South Africa.
The cable, which will link South Africa and Europe along Africa’s west coast, was landed in the seaside holiday town of Swakopmund late last week by landing partners Paratus Group and Telecom Namibia, which were contracted to build and operate the landing station.
Equiano is expected to be ready for commercial service in the fourth quarter of 2022 and will deliver up to 20 times the international capacity that was previously available in Namibia. Until now, Namibia has relied solely on the West Africa Cable System, or Wacs, for subsea Internet connectivity.
“This is a landmark event and a great day for Namibia’s digital transformation. We are very proud to be the Google landing partner, and infrastructure partner with Telecom Namibia, to deliver better connectivity to everyone in Namibia,” says Paratus Group CEO Barney Harmse in a statement.
“The Google Equiano cable shore landing is a major step in the development of our national telecommunications infrastructure,” said Telecom Namibia CEO Stanley Shanapinda. “The cable will ensure redundancy for Telecom Namibia and offers an alternative when other routes may be impaired.”
In South Africa, Openserve, the wholesale division of Telkom, will serve as the landing station partner for Equiano.
The company said in November 2021 that the 150Tbit/s (design capacity) Equiano system will come ashore at its landing station in Melkbosstrand, which already serves as the landing site for other submarine cables, including Sat-3, which follows a not dissimilar route to Europe as Equiano.
Openserve will offer terrestrial services connecting the Equiano cable to South African carrier-neutral data centres.
— © 2022 NewsCentral Media
References:
Future Market Insights: Lit Fiber Market to reach US$ 20B by 2032
The global lit fiber market is expected to witness an impressive growth rate of 16.7% over the forecasted years of 2022 to 2032, according to a new report by Future Market Insights, Inc. The lit fiber market size is anticipated to reach a valuation of around US$ 20 Billion by the end of year 2032 from the current valuation of US$ 4.28 Billion in 2022.
Lit fiber has been used in the IT and telecommunications sectors for a number of noteworthy applications since its beginnings. But in recent years, the sales of lit fiber have grown as a result of the discovery of various more unique applications.
Compared to conventional copper lines, lighted fiber is more durable and extremely resistant to the dangers and traffic found in the previous system. Over the years, the demand for lit fiber has strengthened as an active cable that is set up, controlled, and maintained exclusively by service providers.
Elevated level of data transfer via short- and long-distance communications is made possible by fiber optics that is observed to have strengthened the lit fiber market opportunities. For connectivity, industrial, IT and communications, and security applications, a number of international businesses have started providing illuminated fiber connectivity proliferating the market further.
Increased investment in research and development by key actors leads to the creation of new technologies, and advancements in fiber optic connectivity that is predicted to increase the competition among lit fiber market participants.
Key Takeaways from Market Study:
- The overall growth of the global lit fiber market is estimated to be around US$ 15.7 Billion during the coming decade by following the average CAGR of 16.7%.
- The global market for lit fiber is dominated by multi-modal fiber segment, which is estimated to grow at a rate of 16.3%, while the single-mode segment is projected to develop at the fastest pace of 17.2%.
- The higher selling segment, which accounts for over 60% of the sales revenue, is the lit fiber on-net connectivity items that is expected to grow at a CAGR of 17% during the projection period. And from the other front, the off-net lit fiber segment has grown in popularity recently and is expected to increase the sales of lit fiber over the years 2022 to 2032.
- With a market dominance the networking application segment have historically been the key driver of lit fiber industry expansion. However, due to the product’s growing popularity, a 31.7% growth rate in this segment is anticipated throughout the anticipated time frame.
- Of the world’s major geographical areas, North America accounts for more than 28% of the global lit fiber market. In contrast, the Asia Pacific lit fiber market has recently picked up steam and is expected to increase at an above average CAGR from 2022 to 2032.
Competitive Landscape:
The global lit fibre industry is highly fragmented and is anticipated to see an increased competition in the coming days as a result of the existence of several illuminated fibre market rivals. The major lit fibre companies are prioritising growing their customer base and serving underdeveloped areas at the same time as their major strategy to penetrate wider market.
Some of the well-known market players are among
- AT&T
- Attice USA
- Comcast
- Crown Castle Fiber
- Frontier
- GigabitNow
- Lumen
- Spectrum Enterprise
- Verizon
- Zayo among others
Recent Developments in the Global Lit Fiber Market:
- In line with the target of providing lit plus dark fibre connectivity at Coloblox’s ATL1 Atlanta data centre, FiberLight, LLC, which is a vendor of optical equipment, joined forces in August 2021.
References:
https://www.futuremarketinsights.com/reports/brochure/rep-gb-15116
Review of SideTrak Solo 17.3 inch portable monitor
This SideTrak Solo portable 17.3 inch monitor works great!
It was easy to set-up via Windows 10 laptop- plugged in HDMI cable for the audio/video and USB cable for power feeding from PC to monitor. Then changed Display settings to dual display from mirrored display in order to get 2 separate screens.
After set-up, you can drag a webpage from 1 screen to another which is very useful if you are doing research work or want to watch a video on 1 screen while working on the other screen.
The image clarity is better than on my new ACER laptop which was a pleasant surprise. You can adjust the volume UP or DOWN via the top & bottom buttons on the lower right side of the display. The stand is very stable so it’s easy to move the monitor.
Because it’s portable, you can take it along with your laptop to do work or watch videos away from home/on the road.
All in all, I’m very satisfied with this product!
References: