Open Source Strategy in Logistics 2015_Henrik Hankedvz-d-nl-log-conference.pdf
5G Expectation and Beyond - an Operator Perspective - CG Gustiana
1. 5G: Expectation & Beyond
An Operator Perspective
C.G.Gustiana
GM Strategic Technology Planning
Telkomsel
November, 19th 2015
Jakarta, Indonesia
2. EVOLUTION TOWARDS 5G
Source: METIS, Ericsson
2G 3G 4G 5G
1000X
Mobile Data Volumes 10X – 100X
Connected Devices
5X
Lower Latency
10X – 100X
End User Data Rates
10X
Battery Life for Low
Power Devices
3. Technology Acquisition Journey …
3G
(1999–2007)
3G
(1999–2007)
1G-2G
(1980–1990)
1G-2G
(1980–1990)
4G
(2008–2014)
4G
(2008–2014)
4.5G
(2015-2019)
4.5G
(2015-2019)
1981–1990
2G GSM
development and
standardisation
1990s–2000s
2G GSM network
commercialisation
1999–2007
3GPP 3G
standardisation
20112008 2009 2013 2014
Rel.8
LTE
Rel.9
H-eNB
Rel.10
LTE-A
Rel.11
LTE-A
Rel.12
LTE-A
Small cell enhancement
Carrier Aggregation
New carrier
Public safety
Massive CA
LAA ( unlicensed LTE)
Massive MIMO (64x64 or 128x128)
256QAM
New Multiple Access scheme
Very high frequency carrier
MTC and D2D
2015–future
3GPP study for 4.5G & 5G
specification
5G
2014:Launch LTE with Rel.8
capability
6 years gap from 1st standard of LTE
2006:Launch 3G with Rel.99
capability
7 years gap
1995
Launch 2G (GSM)
5 years gap
? years gap
Carrier Aggregation
eICIC
DL/UL CoMP
ePDCCH
eMBMS improvement
SON
Carrier Aggregation
High order MIMO
eMBMS
SON
? years gap
4. 5G: GENERAL WISHES LIST
Source: Gartner, Machina Reasearch, Qualcomm 5G Vision
CONNECTING
New Industries and
Devices
ENABLING
New Services
Wishes
EMPOWERINGMovietvtechgieeks.com
New Users Experiences
More video
Richer content like
4K Video
~2/3 of mobile
traffic will be
video by 2017
More devices
Smartphones
Cumulative smartphone
~8b shipments forecast
between 2014-20181
More things
Connected
~25B Interconnected
device forecast in 2020
More data
Small cells
~1000x from ~2010 to the
2020
5. 5
AN OPERATOR PERSPECTIVE
From the operator’s point of view, expected that the upcoming 5G Technology and its implementation
later on could consider and accommodate several expectations as the following:
SPECTRUM Flexibility Flexible NETWORK ARCHITECHTURE INTELIGENT NETWORK MANAGEMENT
Dynamic and Flexible to use
any spectrum available
Available to use existing network
infrastructure, and leveraging
virtualized network functions
Intelligent, dynamic, and
automated network
management function
SCALABILITY & ADAPTABILITY Smart and UNIFIED PLATFORM
Scaling up and down easily,
and available to support next
emerging services
Reducing TCO by integrating
several functions into one unified
platform
Etc. ….
Such as regulation to control
implementation of broadband tariff
6. 6
SPECTRUM FLEXIBILITY
Below 1 GHz for lower range massive connections, below 6 GHz for mbb, mission critical and possibly
backhaul, above 6 GHz for both access and backhaul, gradual migration into existing spectrum
Coverage become smaller.
Require higher number of
BTS & indoor penetration
issue
Higher Spectrum band for
new technology release
(2G:900MHz,2.5G:1800MHz,
3G:2100MHz, 4G:2300MHz)
New technology can use
existing spectrum
(3G in 900 MHz, 4G in
900/1800 MHz)
Complex Spectrum
management,
Traffic offloading, re-farming,
and curving
IMPLICATIONSSome FACTS
Multi/wide frequency carrier and dynamic frequency
channel allocation
Scalable bandwidth per 1MHz and dynamic bandwidth
allocation depend on traffic usage, interference level, and
available channel .
Spectrum and power sharing with existing technology
2G/3G/4G.
Scalable frequency duplex (no dedicated channel for
DL/UL)
EXPECTATIONS
Source: METIS, Ericsson
7. 7
FLEXIBLE NETWORK ARCHITECTURE
Flexible and scalable, secured by technology design, available to use existing core network
infrastructure and leverage by NFV/SDN technology
DISTRIBUTED ARCHITECTURE
Reduced overall cost, lower
latency, Reduced backhaul,
lower energy
VIRTUALIZED Network
Virtualized Network Functions
using NFV Technology
SINGLE & Modular CORE
Multi access to a
single core network
2G 3G 4G 5G
Leverage existing infrastructure
Lower Latency Edge Security
Control and user
plane closer to edge
Design for less
trusted nodes
8. 8
NETWORK MANAGEMENT CHALLENGES
Current frequency layering and multi technology implementation making network management becoming one
of the though challenge which expected could be solved by the upcoming 5G technology
Layering frequency
Multi frequency within a
coverage (2G:900MHz/1800MHz,
3G:2100MHz (F1+F2+F3+F4),
4G:900/1800/2300MHz)
Multi technology and multi
layer coverage (GSM900,
DCS1800, UMTS2100/900,
LTE900/18002300)
Coverage overshooting and
overlapping (macro to
macro, macro to small cell,
etc)
Very close inter macro site
distance and massive small cell
Complex layering management,
Load balancing and quality
management
Complex Network management,
Maintenance & operational issue
Coverage, quality & capacity
management,
Load balancing, interference,
pollution issues
Coverage management,
SITAC, community, esthetic issues
IMPLICATIONSSome FACTS
9. 9
INTELIGENT NETWORK MANAGEMENT
Current frequency layering and multi technology implementation making network management becoming one
of the though challenge which expected could be solved by the upcoming 5G technology
Intelligent Network O&M
Management
Coordination and
Interference Management
Dynamic Frequency
Planning
Self Optimization
Network
Self Healing Network
Self Configuration Network
Dynamic Capacity Resource
Sharing
Dynamic Capacity & Coverage
Optimization
Dynamic Frequency Layering
Neighbor Optimization
Smart beam forming &
beam steering
Automatic Recovery &
Fault Management
5G
10. 10
SCALABILITY & ADAPTABILITY
Scalable across an extreme variation, from ultra fast speed requirements, high user density, and high
speed mobility into the whole contrary requirement for IoT, and adaptable to support upcoming new services
SCALING DOWN to connect
low cost “things”
Ultra High Density
Low Power Consumption
Support Multi years battery life
for remote sensors
High Efficiency
Reduced per-device TCO, system
overhead
High Flexibility
Effectively provision/manage
diverse user ..
Long Range, Strong
Security
3D/UHD Telepresence
Tactile Internet
1ms e2e latency from action
to feedback
Ultra fast Media Download
Multi Gbps for downloading 4K
Movie
UHD Video Streaming
Virtual Reality
SCALING UP to extreme
mobile broadband
Support current and
emerging SERVICES
Proximal and aware services
New ultra reliable, low
latency, and mission
critical services
Energy/smart grid,
Automotive, Industrial
Automation, Aviation &
Robotics
Demanding Conditions
Ultra high user density, high
speed mobility
Source: Qualcomm 5G Vision
11. 11
Smart & UNIFIED/Integrated PLATFORM
Leveraging current investment to retain the viability of mobile broadband business
Virtualize Resource
Capacity
Multi RAT – Capacity
Resource Pooling
Ultra Wideband in working
frequency
Intelligent Power
Management
Integrated SON
Automatic Recovery
ManagementIntegrated Access Backhaul
Single OSS
Automatic Software Update &
Upgrade
Forward Compatible with
next technology
Backward Compatible with
existing BTS
Multimode Technology
2G/3G/4G/5G