Embed Size (px)
Citation preview
Catapult Open
5G-MOBIX
Enabling CCAM Deployment
Dr Ashweeni Beeharee
Satellite Applications Catapult, UK
Catapult Open
Background and Rationale
• Cooperative, Connected and Autonomous Mobility (CCAM)
• Connecting vehicles – capability to learn from each other
• Automating vehicles – capability to drive better
• Robust, reliable, high performance communication network
• Realising CCAM
• Address societal challenges
• Meeting consumer expectation
Catapult Open
Vision
• Objective – develop and test vehicle functionalities along multiple cross-border
corridors and urban trial sites
• 5G tech req, corridors, business model, deployment options
• Concept – create a complete sample of CCAM ecosystem
• 2 EU cross-border corridor, 4 urban trial sites, 2 Asian urban trial sites
• Demonstrate most challenging CCAM functionalities
• Critical manoeuvres (automated overtake, lane merging, coop collision
avoidance, emergency braking, high density platooning)
• AD enablers (VRU discovery, see-through, 3D surround view, tele
operation)
Catapult Open
Overall concept and trial architecture
Catapult Open
CCAM Scenarios over the trial sites
CCAM
scenarios
Trials
Automated driving
MaaS
Dig
ital
infr
astr
uctu
re
Info
. so
cie
ty o
n
the r
oad
Critical manoeuvres
AD
en
ab
lers
Hig
hw
ay
dri
vin
g
Tru
ck
pla
too
nin
g
Urb
an
dri
vin
g
Car
park
ing
Pu
blic
tran
sp
ort
a
tio
n
GREECE – TURKEY
SPAIN – PORTUGAL
FINLAND
FRANCE
GERMANY
THE NETHERLANDS
CHINA
SOUTH KOREA
Catapult Open
5G-MOBIX Phases
Catapult Open
Exploiting Satellite technology within 5G ecosystem
• X-border connectivity challenge –
seamless communication
• Enabling FOTA/SOTA services
• Broadcast of real-time HD maps
• Inter-operator MEC handover
Catapult Open
Catapult Open
Thank you!
Dr Ashweeni Beeharee
Satellite Applications Catapult
5G MOBIXRealising CCAMSatellite enabled 5G
