1. 5G and the factories of the future
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Klaus Moessner
5GIC
Institute for Communication Systems
University of Surrey
2. 5G Networks
• Peak data rate
• ~ 20Gbps for downlink, ~10Gbps for uplink (~20x 4G)
• User “experienced” data rate
• ITU target: ~100Mbps (~10x 4G requirement)
• 3GPP target: ~300Mbps
• Mobility
• ~ 500km/h
• Latency
• target for control plane
latency 10ms
• target for user plane
latency 0.5ms – 4ms
• Connection density
• target connection density
~1,000,000 device/km2 in
urban environment (MMTC)
• Capacity
• target capacity ~1,000x 4G
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and what, according to 3GPP and ITU, they should deliver:
[Imagefrom"5GUseCasesandRequirements,"awhitepaperfromNokia]
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3. Industrial production
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and the role of 5G
The industrial revolution…
- “one size fits all” product manufacturing
- “mass-customization”
model serving different markets and customer groups
- “mass-personalization” and
”individualisation of mass-manufactured products”
4. Future manufacturing is about being dynamic and reconfigurable
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The FoF…
- Highly automated
- 3D printing
- Virtualised control
- Highly adaptable/reconfigurable
- Wireless unit control,
management, and maintenance
5. From supplier to consumer
Manufacturing is about processes and collaboration
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The “big” picture
Many
component
suppliers
Rolling stock
keeping
JIT delivery to
the assembly
line
On demand
distribution
and delivery
From consumer to supplier
8. The KPIs for a FoF
FoF
requirements
Low Latency
High Reliability
Availability and
coverage
Connection
density
Privacy and
Security
Heterogeneous
network
interworking
Determinism
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9. Ultra Reliable Low Latency Communications and massive MTC for Industry
Clear5G project (EU-TW)
Aim: to design, develop, validate, and demonstrate an
integrated convergent wireless network for Machine Type
and Mission Critical Communication (MTC/MCC) services for
Factories of the Future (FoF)
FoF environments:
– time-critical processes
– dependence on timely delivered data from
massive numbers of sensors
– decisions having to be made and executed
in less than milliseconds
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Air interfaces for 5G in FoFs – looking at a new framework, concentrating on the industry use case
10. Network Evolution – convergence!
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The Clear5G Concept from individual technologies to converged wireless access
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11. Clear5G
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Defining key enablers necessary for MTC traffic in 5Gnetworks, aiming at the Factories-of-the-Future (FoF) environment.
Technical objectives
• PHY enhancements for reliable MTC
supporting massive numbers of devices,
extreme low latency, reduced signalling and
control overhead.
• MAC layer enhancements for integrated
convergent access supporting low latency,
high reliability, massive connection density,
and high energy and spectrum efficiency.
• RAN architecture and management
mechanisms aiming at latency,
heterogeneity, reliability, scalability and
manageability.
• Security enhancements at the physical layer
• Validate and demonstrate in testbed
facilities both in Europe and Taiwan.
12. Expected Results
KPI Targeted value Means to evaluate
Latency Down to 1 ms System level simulations, field trials
Reliability Up to 99.999% System level simulations, field trials
Connection density Up to 100 nodes per 1 m3 System level simulations
Security PHY framework PoC validation
Heterogeneity (convergent air interfaces) Coexistence of various radio interfaces,
and various FoF use cases
PoC validation
Energy efficiency (Device battery life) >15 year battery life System level simulations, field trials
Spectrum efficiency Reflected in Connection density System level simulations
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13. The Clear5G Testbeds
Taiwan
LTE random access testbed (III)
SDR-based testbed for B4G R&D (III)
LTE FDD small cell testbed (III-NTU)
Real factory environment (FFG)
5G Testlab (Foxconn)
EXPOLSA platform (NTU)
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EU
5GIC Test Network (UNIS)
Hi-5 platform (TNO)
Miniaturized copy of commercial live network (TT)
SDN/NFV testbed (ARG)
Analysis, optimisation and control platform
(WINGS)
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14. Contact
Klaus Moessner
5GIC
Institute for Communication Systems
University of Surrey
Guildford, Surrey, GU2 7XH
United Kingdom
k.moessner@surrey.ac.uk
http://www.surrey.ac.uk/feps/people/klaus_moessner/
@klamoe
https://www.linkedin.com/in/kmoessner/
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… if you wish to get in touch …