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Huawei proprietary – no spread without permission Huawei proprietary – no spread without permission
On the Advanced 5G Infrastructure for
“Anything as a Service”:
Looking at a True Digital Society in
H2020 and Beyond
Dr David Soldani, Huawei European Research Centre
NetWorld2020 EG ES and 5GPPP WS Bologna, 23 and 26 June 2014
http://networld2020.eu/new-etp-events/
Huawei proprietary – no spread without permission Page 2 Huawei proprietary – no spread without permission
2010 “Client Server”
Bit pipe and Free Communication Services
2020 “Bearer Graph”
Nervous system of the Digital Society
Vision
“5G will become the new
lifeblood of the digital
economy and digital
society” Neelie Kroes, VP European Commission
“The smart phone is the extension of what we do and
what we are, the mobile is the answer to pretty much
everything” Eric Smith, Google, MWC 2010
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Main research initiatives globally
Stanford CIS
UC SWARM NYU Wireless
WINLAB MOST 863
5G
Forum
5GIC UK IMT-2020
promotion
EU • Framework Program 7, e.g.
METIS and 5GNow projects • 5G PPP in Horizon 2020
UK • 5GIC at University of Surrey
US • Intel Strategic Research
Alliance (ISRA) • NYU Wireless Research Center • 4G Americas
China • 863 Research Program • Future Forum • IMT-2020 (5G) Promotion
Group
Japan • 2020 and Beyond Ad-Hoc
Group under ARIB‘s Advanced Wireless Communications Study Committee
Korea • 5G Forum as PPP
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Speed[Mb/s]
Traffic capacity
Reliability
Mobility and
coverage
Energy efficiency
Number of Devices [B]
Latency [ms]
Spectrum and
bandwidth
flexibility
Massive
Ultra-high
Ultra-high
500
5
50
0.5
1
Ultra-high
10
100
1000
High Low
1000
100
10
10000
Best Effort
Low
Low
High
Future IMT IMT
Advance
IMT 2000
Unlicensed Unlicensed
Ce
llu
lar
ba
nd
s
Vis
ible
ligh
t
5 10 20 30 40 50 60 70 80 90 GHz
300 – 984 MHz
10m50-100m0.5–2km
2.5 GHz 40 GHz
Key recommendations and capabilities
http://www.huawei.eu/research-and-innovation/spectrum
1
2
20202010WRC-2007 WRC-2015
• 450-470 CDMA450
• 698-790 2x30MHz
• 790-806 non-IMT in EU
• 2300-2400 non-IMT in EU
• 3400-3600 200MHz in EU
• 470-694 224 MHz
• 694-790 (Region 1) 30 MHz
• 3800-4200 400 MHz
428 MHz 300 – 984 MHz
• 1350-1517 (L-Band ext) 100 MHz
• 2700-2900 200 MHz
3
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Looking at “Full Immersive Experience”…
http://en.wikipedia.org/wiki/Ultra_high_definition_television Holovizio Lighfield Display [Holografika]
The Stanford multi-camera system Huawei audio lab with 22.2 channels system Pope election in 2005 and 2013 – Comparison http://www.text100.com/hypertext/2013/04/homo-numericus/
3D reconstruction obtained from a number of pictures captured from
collaborating different viewpoints [Microsoft Photosynth]
8K= 2x4K pixels 4K = 2x2K pixels 2K = 2048 x 1080 pixels
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Example: movie projectors tomorrow (lasers) 30-50 Mb/s for a single view transmission and Zero-Latency (adaptive) interaction client-server *
*) For luminance (brightness), chrominance (color), resolution, view point, etc. adaptation
http://spectrum.ieee.org/consumer-electronics/audiovideo/lasers-coming-to-a-theater-near-you
2-8K 30-50 Mb/s/view
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Looking at the “Second Machine Age”… Focusing on leveraging technologies around machine intelligence, big data and connected networks http://www.uk.capgemini.com/resource-file-access/resource/pdf/dtr5_29thnov_final.pdf
[Erik Brynjolfsson and Andrew McAfee, MIT Center for Digital Business]
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10Gb/s Device
Tera-Cell
50Gb/s Macro
100Gb/s Micro 80Gb/s
E-Band link
100T OXC
“Edge”
Ephemeral Networks
What is our network and services vision?
Cloudlet
V2V
V2
I
V2D
[KIT]
[Amazon]
[iCUB, IIT, Italy]
[safetybasement.com]
• 1000x higher wireless area capacity and 10G true immersive experience • 100 billions of connections and 5x lower E2E latency (1ms target) • 90% energy saving per provided service
[Google]
1) FULL Immersive Experience
2) ANYTHING as a Service
Learning
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Looking at new “Services and Service Capabilities”…
New Non
Access Stratum
“Bearer Graphs” for
All as a Service: DaaS,
KaaS, NaaS, SaaS, MaaS,
and LaaS…
“Server”
“Client”
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[Apple Inc.]
[Google]
Rendering
Actuating
Networking
Sensing
Edge computing
What are the fundamental enabling technologies? The nervous system of the true Digital Society
1
2
3
Controlling & Orchestrating
4
[Robocop 2014]
5
Ge
om
etry
Id
entity
(C
yb
er w
orld
)
[Robocop 2014]
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Ex: Network architecture SDN/NFV based (logical)
[D. Soldani, A. Manzalini “On the Advanced 5G Infrastructure for Anything as a Service,” WWRF, Sept 2014]
Public
Orchestration
Controller
Private
Edge
Controller (i)
Device
Controller
L1-3
Routing/
Forwarding
M-MIMO Edge
Controller (ii)
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Controller
Ex: Converged advanced radio and optical transmission (physical)
4) Efficient handling of antenna arrays
3) Flexible routing of wavelengths and mapping of RF channels
1) Efficient compression of IQ data and flexible routing
Reconfigspectrum S6100G 400G
1T 2.56T
Local C-RAN
server
Mobile Radio Core
server
Long distance
C-RAN
Hybrid Digital Front- and backhaul
Ultra Dense Network (UDN)
Moving capacity demand
Moving capacity demand
Digital Fronthaul
Analogue Fronthaul
Indoor
FTTx
RoF in UDN
RRU
RRU
Macro
Forecast radio
capacity
Forecast transmission
capacity
Radio control entity C
M
RoF
Mapping
Compression
Radio over Fiber (D-RoF, A-RoF)
S Switching
RRU
RRU RRU
mmW
Elastic WSS (OADM)
RRU
Central Base Band Units (CU)
CU
Optical DEC
RF front
ends
Mapping of radio
signals to optical
signals for M-MIMO
Flexible
routing of
wavelengths
RF signals
RF front
ends
2) Effective selection of RF frequencies depending on capacity demand
Elastic WSS (OADM)
Multi RAT
Multi layer
frequency bands:
0.6 to 90 GHz
Macro
Flexible routing of
wavelengths digital IQ
Reconfiguration optical
and radio network
Optical control entity
M-MIMO RRU
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Recommendations
Focus on technology fields around machine
intelligence, big data & connected networks
Collaborate and develop capabilities for
leading the new paradigms
Exploit PP funds, enable technology adoption
and market uptake
Create win-win conditions/instruments for MS,
EU and international investors
Page 15
References
[1] Huawei, “5G: A Technology Vision,” White paper, Feb 2014.
[2] A. Manzalini, et al., “Software-Defined Networks for Future Networks
and Services: main technical challenges and business implications,”
IEEE SDN4FNS, White Paper, January 2014.
[3] Capgemini Consulting: Digital Transformation Review – Gearing. N.
05, Jan, 2014.
[4] V. Yazici, U. C. Kozat, M. O. Sunay, “A new control plane for 5G
network architecture with a case study on unified handoff, mobility
and routing management,” IEEE Communications Magazine, Nov,
2014.
[5] https://www.metis2020.com/documents/deliverables/
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Our organization in the 5G Infrastructure Association SB - Elected at 5G Infrastructure Association General Assembly in Bologna on June 26th 2014
1. Advisory role: shape with our partners the choice of EU priorities in 5G
Research and Innovation in Europe
2. 5G experiments: perform 5G emulations, tests and large scale trials with
our partners to validate technical feasibility and business viability of new
technologies
3. Supporting actions: lead together with our partners the Working Groups
(WG) on 5G Vision, Prestandard/IPR and Spectrum in alignment with
European Commission expectations
4. Execution: Align NetWorld2020, 5G Infrastructure Association and 5G-PPP
PPG (5G-PPP) actions with EC requirements and expectations
5. Communication: formulate and implement a 5G communication plan with
our partners and disseminate the attained results, globally
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Huawei representative http://de.linkedin.com/pub/dr-david-soldani/a/6a0/336
• VP Huawei European Research Centre
› Head of Central Research Institute
Future Wireless, Network and IoT (V2X) Technologies
iAudio, 3D Video and Light/Soundfield Technologies
NetWorld2020 ETP SB and 5G Association: Huawei representative
• 20 years in ICT field: Huawei, nsn, Nokia, Navy
• 150+ R&D projects: 2G, 3G, 4G and 5G Research and development
Network planning and optimization
Network vision and technology strategy
Original contributions to any quality deliverable
• D.Sc. (Finland) and M.Sc. (Italy) in Technologies with distinction
• Qualified for Pr. in Radio Communications Engineering (Finland)