Most network operators say they’re ready for “5G” even if they don’t know what it will actually deliver (the RAN and other key functions haven’t even been discussed by ITU-R WP5D for IMT 2020, let alone agreed upon), Ericsson found in a survey of wireless network operators around the world (see References and hyper-links below). Many expect the enterprise market and Internet of Things (IoT) applications to drive revenue growth from 5G technology.
More than three-quarters of the respondents said they were in the midst of 5G trials. That corresponds with research from the Global Mobile Suppliers Association research which found 81 5G trials underway in 42 countries.
23% of survey respondents plan to migrate 4G subscribers to 5G with enhanced services and revenues (but when?). Yet nearly two thirds (64%) of operators said they can’t pay for 5G by simply raising rates on consumers, because consumers are “tapped out.” Eighteen percent of respondents said they expect to monetize 5G by “expanding to new markets—enterprise/ industry segments.”
“In 2016, 90% pointed to consumers as the central segment in their planning and only 34% focused on specialized industries,” the Ericsson researchers wrote in this year’s report. An increased emphasis on the enterprise market is a key shift since a previous Ericsson 5G operator survey was conducted in 2016.
“This year, operators are seeing that the consumer market is saturated, so planning for 5G is more evenly split across specialized industry segments (58%), business users (56%) and consumers (52%),” the Ericsson researchers added.
Specific industry segments on which operators expect to focus 5G monetization efforts include media/entertainment (cited by 69% of respondents), automotive (59%), public transport (31%), healthcare (29%) and energy/ utilities (29%).
Providing industry-specific services to these industry segments will be important in 5G monetization, according to 68% of respondents. The single most important use case in the media/entertainment segment is high-quality streaming, respondents said. Other top use cases by segment included:
- Automotive: autonomous vehicle control
- Public transport: Smart GPS
- Healthcare: Remote robotic surgery
- Energy & utilities: Control of edge-of-grid generation
More than three quarters (77%) of respondents said third-party collaboration is an essential element in 5G monetization and 68% said they need to find new revenue-sharing models.
Chart courtesy of Ericsson’s 5G Readiness Survey
Survey Questions and Methodology:
Some of the questions asked in the survey:
-Exactly how have preparations for 5G evolved over the past year?
-Where do telcos stand now in their 5G activities and developments?
-What actions are service providers taking now in anticipation of 5G?
-What priorities drive their initiative?
-How ready are they to take leadership positions in the 5G future?
The survey’s objective was to obtain a snapshot of the state of the industry in relation to next-generation mobile technology. Last year, we struggled to find 50 executives globally who were far enough along in 5G to answer the survey questions.
This year, Ericsson says they “easily identified 50 executives, both business and technical leaders, from 37 operators around the world. As leaders of their organizations’ 5G efforts, they are at the center of the 5G evolution. That increase clearly signifies the growing recognition among industry leaders of 5G’s importance.”s
There’s certainly no shortage of 5G reports predicting some combination of utopia and nirvana. The Frost & Sullivan report described here is one of them.
Perhaps the reader should reflect on all the pie in the sky predictions for all optical networks in the 1998-2001 time frame which to this day have not been even remotely realized. With that caveat in mind, enjoy this Frost & Sullivan press release for their new 5G report!
5G: The Foundation for a Hyper-Connected World
by Frost & Sullivan and and Principal Financial Group
The expected transition to 5G, the next generation in mobile communications, will bring new startups, new competitive intensity, and the development of new platforms and business models, according to a report released today by Frost & Sullivan and Principal Financial Group.
The collaborative whitepaper titled, 5G: The Foundation for a Hyper-Connected World, predicts that 5G will result in a period of industry disruption and vertical realignment in a massive portion of the global economy, which is likely to impact investors’ portfolios. The paper is the first in a series on 5G, which takes a multifaceted look at how this technology will prompt the next wave of technological innovation and shape investment opportunities in the coming years.
To download the full whitepaper, please visit: http://frost.ly/1vs
Here’s an excerpt:
5G will be a world in which more and more objects are connected online, making our homes, cities, farms, and factories more efficient. Where adopted, 5G will be a critical enabler of innovation, bringing new products and services to market that will help people live better while also increasing productivity in sectors such as manufacturing and healthcare. Within this world, investment opportunities and threats will inevitably emerge, prompting critical questions around timing, location, and which industries stand to benefit the most.
“Disruption brings with it the potential to find strong growth prospects. However, with 5G, as with any new technology, investors must remain realistic. Although 5G will improve people’s lives and strengthen productivity, rollout will take time,” said Richard Sear, partner and senior vice president of Frost & Sullivan’s Visionary Innovation Group. “It will likely be a decade or more until the widespread economic impact of 5G can be fully measured. Finding opportunities will rely on ongoing, active monitoring of regional, government, and industry landscapes.”
It is expected that 5G connectivity will affect every industry as more data will be transmitted at faster rates. This will allow for innovative and advanced applications—many of which have yet to be conceived. Successful long-term investment strategies will place a premium on those industries, companies, and countries that establish clear use cases for 5G early on and that position this technology as a strategic complement to additional pursuits such as artificial intelligence, big data, and machine learning.
“The effect that 5G will have on the speed of technological implementation is hard to quantify today. What we do know is that this technology will further enable developing economies to close the gap with developed markets,” said Jim McCaughan, chief executive officer for Principal Global Investors, the asset management arm of Principal. “5G, coupled with strong middle class expansion in these emerging markets, will create interesting opportunities for investors, while also leading to the development of new, tailored financial solutions.”
A related Frost & Sullivan report on 5G network testing can be read here.
About Frost & Sullivan
Frost & Sullivan, the Growth Partnership Company, works in collaboration with clients to leverage visionary innovation that addresses the global challenges and related growth opportunities that will make or break today’s market participants. For more than 50 years, we have been developing growth strategies for the global 1000, emerging businesses, the public sector and the investment community. Is your organization prepared for the next profound wave of industry convergence, disruptive technologies, increasing competitive intensity, Mega Trends, breakthrough best practices, changing customer dynamics and emerging economies? Contact us: Start the discussion
As LTE progresses to more advanced versions such as 3GPP standard LTE-Advanced, LTE-Advanced Pro and the recently marketed Gigabit LTE, ABI Research expects that MIMO  will become an increasingly important part of mobile network operators’ options in their evolution to 5G (officially known as IMT 2020).
While MIMO has not delivered on its promises so far, no doubt exists that the technology will become a foundational building block for mobile networks in the evolution to 4G/5G, and advanced antenna systems will receive increasing attention and research and development (R&D) by both vendors and MNOs.
Advanced antenna systems, including complex passive antennas and large-scale active antennas, will become part of the roadmap to advanced LTE and 5G, according to ABI Research.
Note 1. Long term evolution (LTE) is based on Multiple Input Multiple Output (MIMO)-Orthogonal frequency-division multiplexing (OFDM) and continues to be developed by the 3rd Generation Partnership Project (3GPP).
OFDM is a frequency-division multiplexing (FDM) scheme used as a digital multi-carrier modulation method. A large number of closely spaced orthogonal sub-carrier signals are used to carry data on several parallel data streams or channels.
LTE Advanced (true 4G before the term was hijacked by marketing heads) adds support for picocells, femtocells, and multi-carrier channels up to 100 MHz wide. LTE has been embraced by both GSM/UMTS and CDMA operators.
ABI Research thinks that Massive MIMO will be a key feature of 5G and deploying advanced MIMO for 4G-LTE is a long-term investment which will prepare the ground for the deployment of the next generation of networks.
“While MIMO has not delivered on its promises so far, we are left with no doubt that the technology will become a foundational building block for mobile networks in the evolution of 4G and 5G and advanced antenna systems will receive increasing attention and R&D by both vendors and MNOs,” says Nick Marshall, Research Director at ABI Research. “We expect increasing acquisition activities in the antenna market, particularly involving MIMO technology.”
Overall the installed base of MIMO-enabled LTE antennas will grow by more than double worldwide from 2017 to 2021 to reach almost 9 million, with the Asia Pacific region outpacing this with a growth rate of three times. The Asia Pacific region will grow to represent most of the market by 2021. Although the MIMO-enabled LTE platform retains the largest installed base through 2021, growing by a factor of almost two times, it is the MIMO-Enabled LTE-Advanced platform growing at a faster rate and MIMO-enabled LTE-Advanced Pro at almost six times which rise rapidly to match the scale of the earlier MIMO-enabled LTE platform. The cellular antenna market forms a very dynamic and innovative ecosystem with many vendors including Amphenol, Comba, CommScope, Huawei, Kathrein and RFS all competing to include these advanced multi-antenna features,
“Advanced antenna systems including complex passive antennas and large scale massive MIMO active antennas will become part of the roadmap to advanced LTE and 5G,” concludes Marshall. “The need for active antennas when MIMO becomes more advanced will also change the market map, which has largely depended on passive antennas for previous generations.”
These findings are from ABI Research’s “Evolution of MIMO in LTE Networks“ report. This report is part of the company’s Mobile Networks Service research service, which includes research, data, and analyst insights.
For more info,including an Executive Summary:
About ABI Research:
ABI Research stands at the forefront of technology market intelligence, providing business leaders with comprehensive research and consulting services to help them implement informed, transformative technology decisions. Founded more than 25 years ago, the company’s global team of senior and long-tenured analysts delivers deep market data forecasts, analyses, and teardown services. ABI Research is an industry pioneer, proactively uncovering ground-breaking business cycles and publishing research 18 to 36 months in advance of other organizations. For more information, visit www.abiresearch.com.
COMPLIMENTARY TUTORIAL ON MMWAVE AND MASSIVE MIMO
Many operators have accelerated preparations for the arrival of 5G, and are increasingly looking to the enterprise as well as the consumer market as potential customers, according to a survey conducted by Ericsson.
A survey of operators that have publicly announced intentions to deploy 5G shows that 78% are conducting 5G trials, up from just 32% during a similar survey last year. In addition, 28% of the respondents plan to deploy 5G next year (even though IMT 2020 standards won’t be finished till late 2020 and there has been no discussion of the 5G RAN). Operators have further evolved their business strategies for 5G services to extend beyond the consumer market.
“In the 2016 survey, 90% of the respondents pointed to consumers as the main segment in their 5G business planning,” Ericsson head of 5G commercialization Thomas Noren explained.
“This year, it is an even split between three segments and operators have identified business opportunities not only in the consumer segment but also with enterprise users and specialized industries.”
With operators considering the consumer market to be becoming saturated, 5G planning has been more evenly distributed across specialized industry segments (58%), business users (56%), and consumers (52%).
The industry segments considered to have the most potential include media and entertainment, automotive and public transport, with energy and utilities as well as healthcare being considered other attractive potential markets.
The survey also found that a clear majority of operators believe that the IoT will play an important role in the 5G ecosystem.
82% of technical respondents believe multiuser Massive MIMO is an essential feature for 5G. Multiuser Massive MIMO dynamically transmits data as highly focused beams to simultaneously send and receive multiple data signals over the same radio channel, enabling multiple users to use the same time and frequency resources, which, Ericsson points out, is key to many of the performance gains expected in 5G because it increases spectral efficiency for higher capacity and throughput from the same amount of spectrum.
Other features identified as essential to 5G are device-to-device connection (71%), network security (68%), virtualized network functions (68%) and network slicing (68%).
The Ericsson report found that in saturated markets, such as North America, operators envision monetizing 5G connectivity by taking market share from competitors with new features and performance (23%) or better pricing (18%); by migrating current 4G subscribers to 5G and charging more for 5G features (23%); and by expanding to new enterprise/industry markets (18%).
The Next Generation Mobile Networks Alliance (NGMN), an industry association of mobile carriers, has defined requirements for 5G including data rates, transmission speeds, spectral efficiency and latency.
So has ITU-R WP 5D- the only real standards body for 5G (AKA IMT 2020). However, the wireless networking industry has yet to agree on the Radio Access Network (RAN) and related 5G standards, despite 3GPP release 15 on “New Radio.” 5G standards won’t be completed until very late in 2020.
As we’ve reported in several IEEE techblog posts, AT&T and Verizon are conducting 5G trials in the US while other trials are proceeding in Europe and Asia.
Bullish Opinions on 5G:
Broad deployment of 5G networks is not expected until the 2020 timeframe, according to Sam Lucero, a senior principal analyst for M2M at IoT at IHS Markit. Yet despite the lack of standards, a number of speakers at last month’s Mobile World Congress (MWC) Americas in San Francisco were more bullish on 5G and expectations for its rollout.
“We expect 5G to come faster and be broader than originally thought,” said Rajeev Suri, president and CEO of Nokia. Suri said Nokia expects 5G networks to be deployed in 2019, with widespread trials next year.
“4G is like a really good rock band,” said Andre Feutsch, CTO at AT&T. “5G is like a finely tuned orchestra.” He added that he sees n 5G a tremendous opportunity for advancing and “frankly making the network more relevant.”
“From a network perspective, [5G] is an evolution,” said Gordon Mansfield, vice president of RAN and device design at AT&T. “However, from a capability perspective it will be a revolution as it unfolds.”
“The 4G network is foundational to 5G,” said Nicki Palmer, chief network officer at Verizon. She added, “It’s hard to really peel 4G and 5G apart in some ways. The good news is that the investments we make today [in 4G] lead us down the 5G path.”
“We’ve been trying to define what 5G is for the past five years,” said Ron Marquardt, vice president of technology at Sprint. “We are getting close to being able to define that. We need to educate industries on how 5G can and will disrupt them.”
Feutsch said 5G technology will enable carriers to provide solutions to a greater number of use cases. He said a lot of the work that has been done to date with pre-standards trials of 5G “were really to gain a lot of insights that helped us feed right back into the standards work.”
He added that standardization and openness would be critical to creating the healthy ecosystem that is required to enable 5G to flourish.
“We’ve got to standardize on this and avoid proprietariness as much as possible” to build a healthy 5G ecosystem Feutsch said. He said a lot of innovation for 5G would come from smaller companies — “disruptors” that need to rely on standards to make the technology they are developing fit into the 5G landscape.
Derek Peterson, chief technology officer at Boingo Wireless, a provider of mobile Internet access, also emphasized the importance of standards and urged audience members to participate in standards efforts. “Participating in standards is very important because it is going to take a collaborative effort to make all of these things work together,” he said.
The densification required for 5G transmission speeds will rely on a far greater number of smaller cell sites than previous generations of wireless technology. The process of getting the cell sites approved can vary widely from place to place, and often be one of the biggest roadblocks to 5G.
“It can take a year to get a permit for something that it takes an hour to hang on a pole,” Mansfield said.
“The biggest barrier is going to be the density that you need for 5G is something that we have never seen before,” said John Saw, Sprint’s CTO. “It’s going to be more than putting 5G on the towers that we know and love today. We need to change how we get permits for this.” Saw added.
With the wireless industry prepared to spend an estimated $275 billion to deploy 5G, governments need to streamline permitting processes.
“I think public policy makers get to have a say in how fast we spend it and where we spend it. They need to get used to the fact that there may be hundreds and perhaps thousands of permits being requested to get this density that is required,” Saw concluded.
Panelists in an IoT session said that the primary barriers to enterprise IoT adoption include limited battery capacities and insufficient interoperability between connected devices, including VPN support, cloud service compatibility and other technologies. No mention was made of 5G for low latency IoT applications.
A tremendous increase in global mobile data traffic due to the use of video and other applications on smartphones is causing network capacity overloads. Smartphone users spend nearly 80 percent of their daily device use time on non-voice activities, rendering traditional capacity expansion inadequate.
Wireless network testing is witnessing a resurgence due to high demand for positive customer experiences. Traditional drive test solutions are no longer sufficient to provide a true picture of the quality a customer is experiencing. Consequently, there’s a need for additional operation support systems (OSS) tools with geo-location, as well as highly effective active and passive monitoring probes.
Frost & Sullivan’s research, Global Wireless Network Test Equipment Market, 2017–2023, finds that 5G is expected to bring several changes in infrastructure and networks. With this change, the need for testing is expected to rise and will lead to more parameters monitored through key performance indicators. The study examines current and expected market developments, drivers, restraints, opportunities, regional trends, and end-user perspectives. Segments analyzed include OSS (CM/FM/PM), OSS with geo-location equipment, site test equipment, SON test equipment, active monitoring, passive monitoring, and crowdsourcing.
“Carriers need to know where the network coverage is supposed to go, as poor coverage and service are the top drivers for high customer churn,” said Frost & Sullivan Test & Measurement Program Manager Olga Yashkova. “Service providers’ (SPs’) desire to obtain better, richer, and more detailed information about the quality of the coverage is pushing demand for drive test solutions that communicate virtually with other tools, along with investment in new drive test equipment.”
With each new wireless technology rollout, there is a critical need to refresh and update drive test equipment so that the new technologies can be successfully and accurately measured. Currently, OSS testing and drive testing is applicable for 3G, 4G/LTE, and even VoLTE. However, with the evolution of newer technologies such as 5G, drive testing becomes expensive and exorbitant. The testing process has to be redone from the beginning with a new workflow process. In the near future, minimization of drive test integrated with geo-location is expected to provide more accurate results that will enable vendors to provide more services.
Strategic imperatives for SP success include:
- Focus on burgeoning vertical to remain relevant;
- Offer customers combination products and customization options;
- Seek partnerships with third-party providers for value-added services;
- Demonstrate product features and capabilities on websites to differentiate offerings; and
- Improve connections with customers through robust online presence, eCommerce facilities, and mobile applications for purchase and services.
“A major restraint of the drive test market is that drive testing is a labor-intensive activity. Operators and infrastructure vendors are under pressure to reduce the manpower that they deploy in this area, which reduces the amount of test equipment purchased,” noted Yashkova. “Demand has increased for next-generation drive test solutions that offer a bridge between customer experience and network coverage.”
Global Wireless Network Test Equipment Market, 2017–2023 is part of Frost & Sullivan’s Test & Measurement Growth Partnership Service program.
About Frost & Sullivan
Frost & Sullivan, the Growth Partnership Company, works in collaboration with clients to leverage visionary innovation that addresses the global challenges and related growth opportunities that will make or break today’s market participants.
Global Wireless Network Test Equipment Market, 2017–2023
Contact: Jaylon Brinkley
Corporate Communications – North America
P: (210) 247.2481
F: (210) 348.1003
The rise of 5G is promising to shake up the status quo in the mobile equipment industry by presenting opportunities for startups to grab market share away from the incumbent vendors, according to ABI Research.
In a new report, the market research firm identified 15 startups exhibiting strong potential to play a role in wireless network operators’ transformation to 5G through innovative products and services.
“Traditionally operators have deployed a handful of infrastructure vendors in their networks, especially in the core network. Stagnating average revenue per user and increasing network traffic are driving operators to be more cost-effective and innovative in network performance and operations management and network upgrades. The end-to-end digital transformation toward virtualized and software defined networks is creating the opportunity for operators to open their highly proprietary networks and vendor ecosystem to include innovative start-ups. The 15 companies we have profiled illustrate a strong business sense and innovative solutions,” says Prayerna Raina, Senior Analyst at ABI Research.
Operators are facing the need to address key network performance and traffic management issues ahead of the standardization and launch of 5G in 2020, the report states.
Startups such as Athonet, CellWize, CellMining, AirHop Communications, Core Network Dynamics, Blue Danube and Vasona Networks are developing innovative solutions in these areas and may challenge the long-established telecom industry status quo.
“The telco start-ups we have profiled are challenging the incumbents in every way. From the flexibility of the solution to value-added services and a strong R&D focus, these companies are not just innovative, but also reflect an understanding of telco operators’ operational models as well as revenue and network performance challenges. With strong financial backing and active engagement with major partners in their ecosystem, these startups have proven their ability to meet operator requirements in tests and field deployments,” Ms. Raina said.
These findings are from ABI Research’s Mobile Network Hot Tech Innovators report. This report is part of the company’s Mobile Network Infrastructure research service, which includes research, data, and analyst insights.
Technology trends including SDN and NFV for mobile networks, the evolution of the mobile edge computing and self-organizing network solutions will also lay the groundwork for 5G (even though none of those will be included in the ITU-R IMT 2020 standards). Other enabling technologies include the use of big data analytics (also not to be included in any 5G standard) to enhance and optimize network performance.
Question: Do you really think start-ups can take market share away from Nokia, Ericsson, Huawei, Qualcomm, and other incumbent wireless technology companies? Don’t forget Intel which is making a major effort to be a 5G technology provider with their mobile terminal platform.
On Friday September 22nd, Huawei announced it will collaborate with Intel on the 3GPP “5G” New Radio (NR) based Interoperability Development Testing (IODT). The partnership will pave the way for pre-standard “5G” trials based on 3GPP release 15. Note yet again, that 3GPP release 15 is targeted at “5G” trials, while release 16 will be a submission to the ITU-R IMT 2020 (real) 5G standards.
“The companies will conduct testing in real mobile, over-the-air environments directly connecting Huawei’s infrastructure and Intel’s terminal platform,” Huawei said on Friday.
The company added: “As one of the first globally converged 5G spectrum, C-Band will provide basic coverage and bandwidth for 5G. Further, C-Band will serve as one of the world’s first commercialised 5G frequency bands. The verification of these features that Huawei and Intel have launched will point out the future direction for the industry.”
Based on Huawei’s 5G base station prototype and Intel’s 3rd Generation 5G Mobile Trial Platform (MTP), the companies will jointly verify the performance of key “5G” NR technologies which include: Sub-6GHz including C-Band, mmWave and mobility. The companies will conduct testing in mobile, over the air environments directly connecting Huawei’s infrastructure and Intel’s mobile terminal platform.
“Huawei is committed to driving the development and commercial deployment of 5G technologies. In the IMT-2020 field tests in Beijing, Huawei has fully demonstrated its competency and leadership in C-Band, mmWave, and downlink and uplink decoupling 5G technology. We are excited to work with Intel to help the industry drive the development of 5G terminals to promote sustainable development and ecosystem maturity of the industry chain,” said Yang Chaobin, President of 5G Product Line at Huawei.
“Intel has been actively collaborating with leading players in the Chinese 5G industry to accelerate 5G R&D tests and commercialization with Intel’s end-to-end 5G technology advantages. Based on the latest 5G NR technologies, this joint interoperability test with Huawei will further drive unified 5G standards and the industrial ecosystem in China and across the globe,” said Asha Keddy, vice president in the Communication and Devices Group at Intel Corporation.
Here’s the timeline for 3GPP release 15:
Ongoing 5G Collaboration & Trials:
At the global 5G testing summit at 2017 MWC this past February, Huawei, Intel, and their telecom operator partners jointly announced they would work to drive globally unified 5G standards through 5G testing, enhance cooperation among telecom operators, equipment manufacturers and vertical industry partners, create a unified 5G industry chain from chips, terminals, to network infrastructure and test equipment, and build a global 5G ecosystem. Commencement of IODT seems to be a viable way for Intel and Huawei to achieve this goal.
Intel is working with U.S. carriers AT&T and Verizon on 5G trials. AT&T is using Intel’s 5G mobile trial platform in its Indiana, Texas, and Michigan trials, while Verizon relies on Intel for its 11 pre-commercial 5G trial networks across the nation. Intel is also planning to use the Olympic Games to showcase its 5G “platform.”
Intel and Verizon additionally trialed 5G during the Indianapolis 500 motor race in May, using technologies such as beam forming and beam tracking to attain speeds in excess of 6 Gbps.
–>Having missed out on 4G-LTE by backing WiMAX instead, Intel apparently is trying to catch up by putting a lot of engineering resources into 5G development and collaboration.
“5G standards are moving quickly to unify, and China will be among the first countries to widely deploy 5G networks. Huawei and Intel will work closely to accelerate the era of 5G.”
Is it possible for South Korea to have more 5G then 3G subscribers BEFORE the official “5G” = ITU-R WP5D – IMT 2020 standards are completed?
Indeed, South Korean mobile network operators plan to take an early lead in the deployment of 5G (perhaps because of the February 2018 Winter Olympics in Pyeongchang). That would help them overcome stagnating traditional wireless service revenues, according to market research firm GlobalData.
The South Korean market’s 5G subscriber base is forecast to outnumber the 3G base by 2020, two years after the world’s first commercial 5G deployment during next year’s Pyeongchang Winter Olympics, GlobalData said in its report.
That will occur at a time when mobile voice service revenues are expected to decline at an average rate of 7% per year through to 2021, GlobalData telecom market analyst Malcolm Rogers stated.
“Operators around the globe faced with the same challenge, evolve to something more than a pipe provider or offer services that come with more utility. However, the Korean operators have been among the most proactive in growing business outside the core of communication,” he said.
“Whereas operators in some markets have been slow to react to the digital disruption caused by OTTs and internet giants like Google and Amazon, the players in South Korea have been investing in new digital business for years.”
The main South Korea wireless network operators – SK Telecom, KT and LG U+ – are focusing on a range of non-core segments including industrial IoT, payment platforms, media and commerce, Rogers added.
From the report description (see Reference below):
SK Telecom and LG U+ now offer cellular based wireless payment platforms that allow small retailers, traders and vendors to conduct business from anywhere. All three major telecom providers have also invested in B2C and B2B e-commerce operations, venturing into an entirely new industry. 5G networks will enable operators to provide new services for industry, government and consumers. Korea Telecom (KT) has already completed trial to offer 5G enabled entertainment services such as high definition virtual reality and 8K mobile video while SKT and KT are developing driverless car solutions and security platforms based on 5G technologies.
South Korea plans to complete the deployment of a commercial 5G mobile network in the second half of 2019, Heo Won-seok, director of ICT and Broadcasting Technology Policy at South Korea’s Ministry of Science, ICT and Future Planning, said during a keynote presentation at the Global 5G Event, May 25, 2017 in Tokyo, Japan.
KT recently launched an AI-based home assistant service while both SK Teleom and LG U+ are offering cellular based wireless payment platforms. All three carriers are investing in business-to-consumer and business-to-business e-commerce offerings, which is an entirely new industry for those network operators.
Against this backdrop, 5G networks are expected to allow the network operators to introduce new services targeting industry, government and consumer markets, according to GlobalData.
For example, KT is already exploring offering 5G-enabled entertainment services including 8k mobile video streaming, while SK Telecom and KT are developing driverless car solutions and security platforms based on 5G technologies.
ITU-T Joint Coordination Activity for IMT2020 (JCA‑IMT2020) is starting a new project called the IMT-2020 standardization activity roadmap. It will be based on the information provided by ITU-T SGs and activities outside of ITU-T. It is available from the JCA-IMT2020 website.
Editor’s Note: As we’ve noted many times in these techblog posts, ITU-R WP5D has overall responsibility for the IMT 2020 standards, to be completed in late 2020.
IMT 2020 (standardized 5G) will not just be an extension of 4G. In addition to offering increased bandwidth and capacity, as was the focus in previous wireless generations, 5G will provide very low latency, high density and high reliability. These capabilities will enable a variety of use cases, facilitating the creation of new, predominantly business focused services.
The objective of the roadmap is to support IMT-2020 standardization coordination. IMT-2020 is an important topic for the telecommunications industry, and many standardization-related activities are held in various entities.
The JCA is progressing this work in a form of roadmap of IMT2020 standardization.
JCA-IMT2020 will keep updating this roadmap, and therefore we solicit your information about updates. If you send us the latest information of your activity related to 5G as well as Network Function Virtualization (NFV), programmable networks, self-managed networks, slicing (including orchestration and capability exposure), fixed-mobile convergence (FMC) and Information-Centric Networking (ICN) and elaborations that are strongly related to IMT‑2020, we will reflect it in the next version, which will be published after the next JCA‑IMT2020 meeting.
ITU-T member organizations may submit updates using the template to be found in Appendix below.
In addition, we invite the representatives of the ITU-T Study Groups, SDOs, fora to nominate a representative to this group.
JCA-IMT2020 will meet next time in Geneva on 10 November 2017, 16:00 -17:30 during the next ITU-T SG13 meeting.
Tel: +1 613724 931 93169636171
The Focus Group on network aspects of IMT-2020 was established in May 2015 to analyse how emerging 5G technologies will interact in future networks as a preliminary study into the networking innovations required to support the development of 5G systems. The group took an ecosystem view of 5G research of development and published the analysis in a Report to its parent group, ITU-T Study Group 13.
The FG was terminated in December 2016 having completed it’s work.
Appendix – template to provide information on IMT-2020-related activities
Title of deliverable
Scope of deliverable
Use cases Framework Requirements Architecture Protocol
SDO, and WG if possible
Name | acronym | Reference
This document aims to …
Draft ITU-T Recommendation | International Standard | Specification