Streaming Media Global
4G will eventually be unable to cope with the growth in video data. Multiple 5G network launches are predicted by 2020, but experts warn rollout will take far longer as business model questions remain
Mobile
communications are already buckling under the weight of traffic but
if it continues on its current trajectory, driven by higher-quality,
Netflix-style on-demand video and advances in virtual reality, then a
whole new solution will be needed.
Fortunately
the fifth-generation mobile communications standard is just around
the corner with the promise to alleviate bandwidth and latency issues
for good. At least, that's the noise being generated by carriers,
chip-set manufacturers, and hand set manufacturers.
"At
a certain point the existing 4G LTE technology will not be
sustainable to cope with the massive growth in video data," says
Volker Held, head of innovation marketing at Nokia
“We
need a new structure. This is the kernel of the 5G business case.
Utilising it means we won't need to talk about bandwidth constraints
for the foreseeable future."
"5G
will raise the bar by providing data rates of tens of megabits per
second for tens of thousands of people," says Per Borgklint,
SVP, chief innovation officer, and head of business unit media,
Ericsson. "Consumers will receive a level of quality in their
services like never before. 5G will be critical. In addition to
handling high bandwidth applications, IoT, and billions of
video-enabled devices, it will drive seamless, borderless coverage,
allowing media companies to go beyond the geographical restrictions
of fibre and become true global players."
A
set of requirements needed to hit 5G have been more or less agreed
upon. Among them: clocking regular mobile data speeds over 1 gigabits
per second (Gbps), 100 times faster than current 4G LTE networks with
peaks of 10Gbps. Some telcos, like South Korea's SK Telecom, claim to
have reached 50Gbps in the lab. 5G latency is targeted at less than 1
millisecond (ms).
In
theory, this would allow users to download a 40GB 4K movie in
seconds, 4K live-to-mobile broadcasting, frame-accurately
synchronised OTT and TV streams, and the ability to run more complex
mobile internet apps. Delivery of 360° video to mobile would be
straightforward, as would distribution of 8K resolution video, if not
to mobile screens (because who needs that?) then perhaps to fixed
wireless terminals in the home.
Momentum
has been building in recent weeks. Earlier this month the Obama
administration announced the Advanced Wireless Research Initiative
(AWRI), a $400 million government-funded seven-year project aimed at
developing 5G.
The
National Science Foundation will lead the project with carriers
including AT&T and Verizon along with HTC, Intel, Oracle, Nokia,
and Samsung participating. AWRI follows on from the FCC’s Spectrum
Frontiers initiative and will use four city-scale testing platforms.
Independently, Verizon is set to launch its own 5G trial network in
the U.S. from 2017 with a long term to support its mobile service
Go90.
Japan
is at the forefront of 5G. Telco NTT are already performing tests in
partnership with Huawei, and are expecting to have the general public
using 5G in 2021, according to Futuresource Consulting.
Not
wanting to be left behind, Europe's governments formed the 5G
Infrastructure Public Private Partnership in the hope it will
reinforce the European industry's ability to compete on the global
stage. Launched by the EU Commission, the PPP has assorted
manufacturers, telcos, service providers, SMEs, and researchers on
board.
Separately,
telcos including BT, Nokia, Hutchison, Telefonica, Orange, Vodafone,
and Deutsche Telekom signed a manifesto pledging to launch a 5G
network in every country within the EU by 2020.
Since
the Brexit vote, that may not necessarily include the UK, but
BT-owned mobile operator EE has been one of the more adventurous in
planning for 5G and says it is "getting requirements together
for the 5GPP X-cast project which is looking at broadcast fixed and
mobile for 5G."
EE
is also funding a 5G research centre at the University of Surrey, UK,
along with BT, the BBC, Huawei, Fujitsu, Samsung, Telefonica and
Vodafone. Public
demonstrations at the Winter Olympics Pyeonchang, FIFA World Cup
Russia, and the Glasgow-Berlin athletic championships are timed for
2018, the first standards due to be ready by 2019 with 2020 the
'magic' date for commercial deployments.
What
Can We Expect from 5G?
The
live coverage of large scale events—as evidenced by the high
profile sports venue trials—could benefit from 5G by streaming the
action simultaneously with commentary on social media and offer
greater personalisation, including user-directed multicam views.
"The
difference in latency from 0.5s to 0.001s with 5G will have a
positive impact but perhaps not as much as expected, as it will only
improve one element of the chain," notes Tony Maroulis, research
manager at Ampere Analysis. "The data will still have to be
captured, encoded, compressed, transferred, received, decompressed,
and played back."
Broadcasters
could, however, mine a treasure trove of user data, Maroulis
suggests. "If broadcasters were able to maintain a data
connection between the users' devices and their servers, it would
give them better profiles of their viewers and how their engagement
changes. Ad-funded broadcasters could offer entirely personalised
targeted advertising," he says.
Other
media uses, highlighted by Tristan Veale, research analyst,
Futuresource Consulting, include greater use of cloud for storage
(allowing devices to be less reliant on local storage, on
site/in-venue live event experiences; collaborative gaming; and
ultra-high fidelity media - meaning music too.
"A
caveat is that even if you can download a 40GB 4K movie in seconds
then it's totally irrelevant if you have a 4GB data plan," he
adds. "The limitations of capped plans needs to move on before
this industry can become more data heavy. Otherwise people will still
have to rely on fixed networks to watch media."
5G
is an Aspiration
Media
and entertainment is just one of a number of applications fighting
for a piece of the 5G action. Remote healthcare, autonomous driving,
and robotics control for industry are among sectors on the wishlist
for blanket sensor-to-sensor communications.
"Whether
it is the ability to maintain connections with hundreds of M2M
devices, delivering mobile data speeds of over 1Gbps, further
lowering latency, these are all specifications that are not dealt
with efficiently on today’s networks," says Maroulis. "In
reality, perhaps only a few of these specifications will be met in
the first 5G network. The same was true with 4G when it began. It was
not until carrier aggregation was introduced that true 4G networks
were live."
"5G
is an aspiration," declares George Robertson, chief technologist
at UK digital TV promoter DTG. "Probably what will happen is
that Long Term Evolution (LTE) will dovetail into 5G. There won't be
an overnight switch on."
Peter
Seibert, executive director of European digital TV consortium DVB,
agrees: "The rollout of 2G, 3G, and 4G took 10-15 years which is
the time frame I expect for 5G."
Partly
this is because 5G is technically very complex. "You can bring
data rates down by going to Massive MIMO or beamforming in a
handheld, but this is really new technology and still needs a lot of
work," he says.
The
big question is who pays for the investment. Among the costs are
wireless base stations which the 5G PPP reckons will need "very
dense deployments of links to connect over 7 trillion wireless
devices serving over 7 billion people." That's worldwide of
course. The DVB's Siebert suggests this means a base station every
150 million, plus the investment in backhauling on top.
Ultimately
it will be consumers, of course, but telcos are making the case
against net neutrality saying that they don't want to invest in a
vacuum."The
EU and member states must reconcile the need for open internet with
pragmatic rules that foster innovation," alerts the 5G
Manifesto, signed by telcos operating in Europe. "The telecom
industry warns that the current net neutrality guidelines, as put
forward by BEREC [Body of European Regulators for Electronic
Communications], create significant uncertainties around 5G return on
investment. Investments are therefore likely to be delayed unless
regulators take a positive stance on innovation and stick to it."
According
to David Wood, chair of the World Broadcasting Unions Technical
Committee, "Engineers always overestimate the speed that new
technology will arrive, and underestimate its eventual impact. To be
realistic we are probably talking about the early to mid 2020s. But
this depends on the network operator incomes, and national economic
climates."
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