5g use cases being tested by autoair · 9/13/2018 · a use case includes one or more applications...
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5G use cases being tested by AutoAirFor LCV Trade delegation – 2018.09.13
Confidential & © Real Wireless Ltd. 2018. All rights reserved. 27 September 2018 2
Confidential & © Real Wireless Ltd. 2018. All rights reserved.
Background● The AutoAir project aims to create a functional “neutral host” 5G testbed for mobile broadband
applications for road and rail and next generation connected autonomous vehicles (CAVs).
● It will demonstrate the business viability for deploying 5G networks, especially in a ‘neutral-host’ or shared architecture and accelerate the uptake of enhanced mobile broadband (eMBB), internet-of-things (IoT), and ultra-reliable, low-latency (URLLC) applications.
● The project involves the utilisation of two testbeds, one of which is deployed at the Millbrook Proving Ground.
● Real Wireless leads the business model analysis of the proposed network and modelling to illustrate potential socio-economic benefits.
● Real Wireless does the radio planning for the 5G deployment at Millbrook, and combine this knowledge with the trials data analysis to validate the technical platform elements of the techno-economic model.
● The following slides reflect the latest thinking on Use Cases that are being analysed through trials and techno-economic activities. The Use Cases are a dynamic aspect of the project and as such the view is likely to change throughout the life of the project.
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Confidential & © Real Wireless Ltd. 2018. All rights reserved.
Introduction Radio Planning
● We focus on identifying the most advantageous location sites for a small cell network in the Millbrook Proving Ground, with the objective of maximising the offered throughput to vehicles on the road.
● It includes the modelling of the different radio components and corresponding parameters of the mesh network and estimating the wireless coverage.
● The Millbrook area can broadly be divided into two topographic types; a relatively flat area, where most of the tracks and event buildings are located and the hilly part in the south of the grounds, where there is a height difference of tens of meters.
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● The radio planning activity identified locations required to extend/densify the LTE/5G coverage for the whole of the Millbrook Proving Ground to achieve a certain performance target and determine the feasibility and utilisation of the mesh mmWave radios as a backhaul option
Confidential & © Real Wireless Ltd. 2018. All rights reserved.
Optimised Millbrook Network
● Various propagation models are used; 3.7 GHz = ITU-R P.1812-4 model taking into account losses for the atmospheric absorption and rain fading (ITU-R P.676-11, ITU-R P.837-7, ITU-R P.838-3 and ITU-R P.1510-1).
● TDD configuration 1 (4 slots for DL/UL and 2 slots for signalling), adjusting for PRB utilisation a realistic system maximum achievable throughput is ~70 Mbps.
● When densifying the network, the minimum intersite distance between the LTE sites is 100 m, while the minimum intersite distance between the mesh radios is 50 m.
● Various antenna configurations are being evaluated
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Optimised network; circles correspond to cells with omnidirectional antennas, lines correspond to the azimuth of the directional antenna at that cell
Confidential & © Real Wireless Ltd. 2018. All rights reserved.
What is a use case?● We consider a use case as a set of interactions between stakeholders (be that a human being or a
machine) and the 5G system
● Stakeholders can be the infrastructure owners, consumers, or any other business that provides services through the 5G system
● A use case includes one or more applications in a deployment environment with details regarding the user activity and both sides of the link
● Ideally Use cases impose some requirements on the 5G system that cannot be met with the 4G one, or they are more effective in the 5G network, and they drive the network implementation. Economic value creation is also an important criteria.
● Three main value creation families of use cases[1]:
● Entertainment
● Advance driver assistance/command and control
● Vehicle management/telematics
27 September 2018 6
[1] National Infrastructure Commission, “Future Use Cases for Mobile Telecoms in the UK”, October 2016
Confidential & © Real Wireless Ltd. 2018. All rights reserved.
Infotainment
List of use cases Family ID Use case Type Main stakeholders Throughput Latency Reliability Comment
Infotainment 1
Infotainment: - video - audio streaming - general access to internet - precise contextual awareness and delivery of personalised suggestions and promotions - interactive entertainment - support for augmented reality - high quality video and gaming
eMBB Consumers, Vehicle OEMs, Content owners ~5-10 Mbps High Low
Users may purchase the service directly from a traditional telco or from an automotive manufacturer issuing its own SIMs (e.g. Audi).A car may generate more than 1 infotainment services (i.e. more than 1 passengers accessing this service)It should expand to passengers in coaches and trains.
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● Entertainment services provide over-the-top (OTT) services:
● Video (Netflix, Amazon Prime)
● Audio streaming (Spotify)
● General access to internet (social media, emails, browsing)
● Moving villages (coaches, trains)
Confidential & © Real Wireless Ltd. 2018. All rights reserved.
Advanced assisted driving (ADAS)
● Driver assistance, also known as Advance Driver Assistance Service (ADAS), uses the on-board sensors and the V2X connections to provide a better control of the car and increase safety.
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List of use cases Family ID Use case Type Main stakeholders Throughput Latency Reliability Comment
Advanced
assisted
driving (ADAS)
2
Enhanced control room capability for autonomous vehicles: - real-time video - telematics - vehicle tracking/control
URLLC Vehicle OEMs, Testing facitlities
10 kbps (for telematics) to 10 Mbps (real-
time video)
Low High (for
video)
High Low (for video)
Important during the testing of autonomous vehicles. Ability to see and control a vehicle at real-time in a case of emergency
3 Satellite navigation with real-time traffic and congestion updates MTC Consumers
Vehicle OEMs ~10 - 100 kbps High Low
4 Parking assistance through guidance to empty parking spaces MTC Consumers, City
councils ~10 - 100 kbps High Low This will be mainly used in urban areas
6 Security apps MTCConsumers, Vehicle OEMs, Government,
Third parties~10 - 100 kbps Low
7 Radar-controlled cruise control with emergency braking URLLC Consumers, Vehicle OEMs, Third parties ~10 - 100 kbps Low Medium
8 Blind spot and lane departure warning URLLC Consumers, Vehicle OEMs, Third parties ~10 - 100 kbps Low High
Little interaction with the infrastructure; the main processing will occur in the car
9 Drowsiness detection URLLC Consumers, Vehicle OEMs, Third parties ~10 - 100 kbps Low High
Little interaction with the infrastructure; the main processing will occur in the car
10 Driverless trains URLLC Rail operators, Government ~10 - 100 kbps Low High
Digitising the command and control operations for trains; improve efficiency and performance
11 Voice communications to trains URLLC Rail operators, Government ~100 kbps High High
The ability of the command centre to communicate with the passengers in the future driverless train
12 Intersection collision avoidance URLLC Consumers, Vehicle OEMs, Third parties ~10 - 100 kbps Low High
13 Optimum speed advisory MTC Consumers, Government ~10 - 100 kbps High Low Interaction with the roadside sensors
14 Pedestrian alert MTC Consumers, Vehicle OEMs, Third parties ~10 - 100 kbps High Low
Little interaction with the infrastructure; the main processing will occur in the car; pedestrian crossing alert (?)
Confidential & © Real Wireless Ltd. 2018. All rights reserved.
Vehicle management
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List of use cases Family ID Use case Type Main stakeholders Throughput Latency Reliability Comment
Vehicle Management
15
Vehicle support: - Geofencing - Secure garaging - On-site services - Billing
MTC Consumers, Third parties ~10 - 100 kbps High Low
Access to services within the premises, interaction with the environment, tracking
16 Gathering data on vehicle performance MTC Vehicle OEMs ~10 - 100 kbps High Low
17 Environmental data MTC Vehicle OEMs, Government ~10 - 100 kbps High Low
18 Vehicle component wear/failure and support serve management MTC Consumers, Vehicle
OEMs ~10 - 100 kbps High LowLittle interaction with the infrastructure; the main processing will occur in the car
19 Software updates and recall management MTC Vehicle OEMs 100 kbps - 1 Mbps High Low From simple updates and messages to car firmware updates; very temporal in nature
20 Rolling stock conditional based maintenance MTC Rail operators ~10 - 100 kbps High Low Centralised system for maintenance management21 Fleet management MTC Third parties ~10 - 100 kbps High Low Adhere to anti-idling rules, efficient routing and traffic solutions
22 Retail logistics MTC Third parties ~10 - 100 kbps High LowIncrease visibility and productivity of a supply chain with seamless operation where planning and replenishment activities will be completely automated
23
Intelligent signals: - Management of traffic flows - Integrating different modes of transport (e.g. bicycles and cars) - Optimising public transport
MTC City councils, Government ~10 - 100 kbps High Low
Interaction with the roadside sensors for traffic flow measurements and traffic signalling optimisation; prioritisation for public transportation
● Vehicle management services include:
● gathering data on vehicle performance,
● environmental data,
● component wear/failure and support serve management,
● software updates and recall management.
Confidential & © Real Wireless Ltd. 2018. All rights reserved.
Use cases to consider
● The Business Model analysis will focus on Strategic Road Network impact, and use cases that are more likely to be adopted early by consumers and the auto industry. An exploration of the “hyper-dense” value proposition will then be carried out.
● The initial selection of use cases:
● (1) Infotainment
● (3) Satellite navigation with real-time traffic and congestion updates
● (6) Security apps
● (16) Gathering data on vehicle performance
● (19) Software updates and recall management
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Confidential & © Real Wireless Ltd. 2018. All rights reserved.
Testing CAVs - specific use cases
● There are use cases that are important for testing CAVs
●Millbrook testing will focus on:
● Continuous high-speed connectivity to a single vehicle
● High speed connectivity to multiple vehicles or single vehicle with multiple independent connections e.g. a coach with multiple passengers.
● CAV Development utility
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Confidential & © Real Wireless Ltd. 2018. All rights reserved.
Technical Requirements/Scenarios
● Understand the technical requirements at a cell level
● Stress-test the capabilities (different loadings, different latencies, different numbers of connections)
● 4 deployment scenario candidates are identified
● 6-lane motorway (e.g. M25) with smooth busy traffic flow
● 6-lane motorway (e.g. M25) congested
● Testing facility (e.g. Millbrook) testing CAVs
● Testing facility (e.g. Millbrook) hosting a big event
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For details contact us at:e info@realwireless.biz w real-wireless.com/blog twitter.com/real_wireless
Real Wireless Limited PO Box 2218, Pulborough West Sussex RH20 4XB, UK
Confidential & © Real Wireless Ltd. 2018. All rights reserved. 27 September 2018 13
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