SlideShare ist ein Scribd-Unternehmen logo
1 von 17
Downloaden Sie, um offline zu lesen
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 1
3GPP Standards for the Internet-of-Things
Philippe Reininger
Chairman of 3GPP RAN WG 3
(Huawei)
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 2
Organizational Partners (SDOs)
• Regional standards organizations:
Market Representative Partners
• 16 Market partners representing the broader industry:
Partnership
• 5G Americas,
• COAI (India),
• CTIA,
• GCF,
• GSA,
• GSMA,
• IPV6 Forum,
• MDG (formerly CDG),
• NGMN Alliance,
• Small Cell Forum,
• TCCA,
• TD Industry Alliance,
• TD-Forum
NEW:
• Wireless Broadband Alliance
• 5G Infrastructure Association
• Public Safety Communication Europe
(PSCE) Forum
• ARIB (Japan),
• ATIS (USA),
• CCSA (China),
• ETSI (Europe),
• TTA (Korea),
• TTC (Japan),
• TSDSI (India)
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 3
Developing internet protocol
specs
ITU-R/T
Developing Mobile application
specs
Referring to 3GPP specs
(contributed by individual
members)
Partners of 3GPP
Referring to 3GPP specs for
the local specs
Referring to specs
Cross reference
Developing Wireless
LAN/MAN specs
Requirements
Input
specs
JapanEU Korea China North America
Market
Partners
Developing
Recommendations
Terminal Certification
Terminal certification
based on 3GPP specs
Cross reference of
specs
The 3GPP Eco-system
India
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 4
0
1000
2000
3000
4000
5000
6000
7000
8000
1999 2001 2003 2005 2007 2009 2011 2013 2015
~400 Companies from 39 Countries
50.000 delegate days per year
40.000 documents per year
1.200 specs per Release
New Release every ~18 months
3GPP Facts and Figures
Europe
41%
Asia
38%
North
America
21%
Participation by Region
R99
R4
R5
R6 R7
R8 R9
R10
R11
R12
R13
R14
Approved CRs per year per Release
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 5
Introduction & timeline
In Release-13 3GPP has made a major effort to address the IoT market
The portfolio of technologies that 3GPP operators can now use to address their
different market requirements includes:
1. eMTC Further LTE enhancements for Machine Type Communications, building on the
work started in Release-12 (UE Cat 0, new power saving mode: PSM)
2. NB-IOT New radio added to the LTE platform optimized for the low end of the market
3. EC-GSM-IoT EGPRS enhancements which in combination with PSM makes GSM/EDGE
markets prepared for IoT
The Release-13 is frozen and additional work is on-going for Release-14
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 6
Summary for eMTC, NB-IOT and EC-GSM-IoT
eMTC (LTE Cat M1) NB-IOT EC-GSM-IoT
Deployment In-band LTE In-band & Guard-band LTE, standalone In-band GSM
Coverage* 155.7 dB 164 dB for standalone, FFS others 164 dB, with 33dBm power class
154 dB, with 23dBm power class
Downlink OFDMA, 15 KHz tone spacing, Turbo
Code, 16 QAM, 1 Rx
OFDMA, 15 KHz tone spacing, 1 Rx TDMA/FDMA, GMSK and 8PSK
(optional), 1 Rx
Uplink SC-FDMA, 15 KHz tone spacing
Turbo code, 16 QAM
Single tone, 15 KHz and 3.75 KHz spacing
SC-FDMA, 15 KHz tone spacing, Turbo code
TDMA/FDMA, GMSK and 8PSK
(optional)
Bandwidth 1.08 MHz 180 KHz 200kHz per channel. Typical system
bandwidth of 2.4MHz [smaller
bandwidth down to 600 kHz being
studied within Rel-13]
Peak rate
(DL/UL)
1 Mbps for DL and UL DL: ~50 kbps
UL: ~50 for multi-tone, ~20 kbps for single tone
For DL and UL (using 4 timeslots): ~70
kbps (GMSK), ~240kbps (8PSK)
Duplexing FD & HD (type B), FDD & TDD HD (type B), FDD HD, FDD
Power saving PSM, ext. I-DRX, C-DRX PSM, ext. I-DRX, C-DRX PSM, ext. I-DRX
Power class 23 dBm, 20 dBm 23 dBm, others TBD 33 dBm, 23 dBm
* In terms of MCL target. Targets for different technologies are based on somewhat different link budget assumptions (see TR 36.888/45.820 for more information).
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 7
eMTC
Objectives
• Long battery life: ~10 years of operation with 5 Watt Hour battery (depending on traffic and coverage needs)
• Low device cost: comparable to that of GPRS/GSM devices (as in the 3GPP work item description)
• Extended coverage: >155.7 dB maximum coupling loss (MCL)
• Variable rates: ~10 kbps to 1 Mbps depending on coverage needs
Deployment
• Can be deployed in any LTE spectrum
• Coexist with other LTE services within the same bandwidth
• Support FDD, TDD and half duplex (HD) modes
• Reuse existing LTE base stations with software update
Main PHY/RF features
• Narrowband operation with 1.08 MHz bandwidth
• Frequency hopping with narrowband retuning for frequency diversity
• TTI bundling/repetition to achieve large coverage enhancements
• New UE power class of 20 dBm
• Further cost reduction beyond Cat 0 (no wideband control channel, reduced TM support, reduced HARQ)
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 8
Rel-14: eMTC enhancements
Main feature enhancements
• Support for positioning (E-CID and OTDOA)
• Support for Multicast (SC-PTM)
• Mobility for inter-frequency measurements
• Higher data rates
• Specify HARQ-ACK bundling in CE mode A in HD-FDD
• Larger maximum TBS
• Larger max. PDSCH/PUSCH channel bandwidth in connected mode at least in CE mode A in order
to enhance support e.g. voice and audio streaming or other applications and scenarios
• Up to 10 DL HARQ processes in CE mode A in FD-FDD
• Support for VoLTE (technics to reduce DL repetitions, new repetition factors,
and adjusted scheduling delays)
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 9
NB-IOT
Objectives
• Even lower cost than eMTC
• Extended coverage: 164 dB maximum coupling loss (at least for standalone)
• Long battery life: 10 years with 5 Watt Hour battery (depending on traffic and coverage needs)
• Support for massive number of devices: at least 50.000 per cell
Main simplification
• Reduced data rate/bandwidth, mobility support and further protocol optimizations
NB-IOT supports 3 modes of operation:
• Stand-alone: utilizing stand-alone carrier, e.g. spectrum currently used by GERAN systems as a
replacement of one or more GSM carriers
• Guard band: utilizing the unused resource blocks within a LTE carrier’s guard-band
• In-band: utilizing resource blocks within a normal LTE carrier
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 10
NB-IOT (cont’d)
Main PHY features
• Narrow band support of 180 kHz
• Supports two modes for uplink
• Single tone with 15 kHz and/or 3.75 kHz tone spacing
• Multiple tone transmissions with 15 kHz tone spacing
• No support of Turbo code for the downlink
• Single transmission mode of SFBC for PBCH, PDSCH, PDCCH
• New narrowband channels:
• NPSS, NSSS, NPBCH, NPDCCH, NPDSCH, NPUSCH, NPRACH
Main radio protocol features
• Single HARQ process
• Only RLC AM mode with simplified status reporting
• Two PDCP options:
1. SRB 0 and 1 only. No AS security (NAS security is used instead). PDCP operating in transparent mode.
2. SRB 0, 1, 2 and one DRB. AS security, which is cached upon RRC connection release.
• For PDCP option 2, RRC connection suspend/resume procedures to maintain AS security context.
• Significantly reduced broadcast system information
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 11
Rel-14: NB-IOT enhancements
Agreement on NB-IOT positioning
• OTDOA is supported
• Baseline signal(s) are: NB-IoT Rel-13 signals, LTE CRS/PRS in 1 PRB
• UTDOA positioning is supported under the following conditions:
• It uses an existing NB-IoT transmission
• It can be used by Rel-13 UEs
• Any signal used for positioning needs to have its accuracy, complexity, UE power consumption
performance confirmed
Main feature enhancements
• Support for Multicast (SC-PTM)
• Power consumption and latency reduction (DL and UL for 2 HARQ processes and larger maximum TBS)
• Non- Anchor PRB enhancements (transmission of NPRACH/Paging on a non-anchor NB-IoT PRB)
• Mobility and service continuity enhancements (without the increasing of UE power consumption)
• New Power Class(es) (if appropriate, specify new UE power class(es) (e.g. 14dBm))
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 12
Enhanced DRX for NB-IOT and eMTC
Extended C-DRX and I-DRX operation
• Connected Mode (C-eDRX):
• Extended DRX cycles of 5.12s and 10.24s are supported
• Idle mode (I-eDRX):
• Extended DRX cycles up to ~44min for eMTC
• Extended DRX cycles up to ~3hr for NB-IOT
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 13
Main upper layer features for NB-IOT and eMTC
UE and Network negotiate capabilities and preferences for types of NAS/core network optimizations
• This may be used for core network selection
• Changes in Attach procedure required
There are two different data transfer optimization features agreed for NB-IOT and eMTC:
• Mandatory for NB-IoT/Optional for eMTC: “CP optimization”
• Enables Small data over NAS using encrypted NAS PDUs
• Support for RoHC Header Compression for IP PDN connection
• Architecture Change: MME, S-GW and P-GW may be combined in one entity (e.g. C-SGN)
• Optional for NB-IoT and eMTC: “UP optimization”
• User plane based with RAN context casheing in idle mode to enable connection suspend/resume procedures on radio/S1
interface
Other optional new features
• Support for non-IP data (2 flavours: non-IP PDN via P-GW, non-IP via SCEF)
• Attach without PDN connectivity
• SMS transfer without combined attach
• Storing and usage of coverage level in MME to avoid unnecessary repetitions over the air
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 14
EC-GSM-IoT
Objectives
• Long battery life: ~10 years of operation with 5 Wh battery (depending
on traffic pattern and coverage needs)
• Low device cost compared to GPRS/GSM devices
• Extended coverage:
• 164 dB MCL for 33 dBm UE,
• 154 dB MCL for 23 dBm UE
• Variable rates:
• GMSK: ~350bps to 70kbps depending on coverage level
• 8PSK: up to 240 kbps
• Support for massive number of devices: at least 50.000 per cell
• Improved security compared to GSM/EDGE
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 15
EC-GSM-IoT (cont’d)
Main PHY features
• New logical channels designed for extended coverage
• Repetitions to provide necessary robustness to support up to 164 dB MCL
• Overlaid CDMA to increase cell capacity (used for EC-PDTCH and EC-PACCH)
Other features
• Extended DRX (up to ~52min)
• Optimized system information (i.e. no inter-RAT support)
• Relaxed idle mode behavior (e.g. reduced monitoring of neighbor cells)
• 2G security enhancements (integrity protection, mutual authentication, mandate stronger
ciphering algorithms)
• NAS timer extensions to cater for very low data rate in extended coverage
• Storing and usage of coverage level in SGSN to avoid unnecessary repetitions over the air
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 16
Rel-14: EC-GSM-IoT enhancements
The objective is to specify radio interface
enhancements for EC-GSM-IoT, that allow
• use of alternative mappings of blind physical layer
transmissions for higher coverage classes of EC-PDTCH/EC-
PACCH
• MCL improvement targeting at least 3 dB for low power
devices (i.e. 23 dBm) on all uplink channels
• Support for positioning
S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6
© 3GPP 2012
© 3GPP 2016 17
www.3gpp.org
For more Information:
contact@3gpp.org
Search for WIDs at http://www.3gpp.org/specifications/work-plan and http://www.3gpp.org/ftp/Information/WORK_PLAN/ (See excel sheet)

Weitere ähnliche Inhalte

Was ist angesagt?

5G Demystified; the what, when and where
5G Demystified; the what, when and where5G Demystified; the what, when and where
5G Demystified; the what, when and where3G4G
 
3GPP 5G Control Plane Service Based Architecture
3GPP 5G Control Plane Service Based Architecture3GPP 5G Control Plane Service Based Architecture
3GPP 5G Control Plane Service Based ArchitectureSridhar Bhaskaran
 
Beginners: Different Types of RAN Architectures - Distributed, Centralized & ...
Beginners: Different Types of RAN Architectures - Distributed, Centralized & ...Beginners: Different Types of RAN Architectures - Distributed, Centralized & ...
Beginners: Different Types of RAN Architectures - Distributed, Centralized & ...3G4G
 
Difference in Rrc procedures lte and 3G
Difference in Rrc procedures lte and 3GDifference in Rrc procedures lte and 3G
Difference in Rrc procedures lte and 3GPraveen Kumar
 
Webnesday - Introduction to LoRaWAN
Webnesday - Introduction to LoRaWANWebnesday - Introduction to LoRaWAN
Webnesday - Introduction to LoRaWANMartin Haas
 
6G Training Course Part 8: 6G Devices
6G Training Course Part 8: 6G Devices6G Training Course Part 8: 6G Devices
6G Training Course Part 8: 6G Devices3G4G
 
LoRaWAN in Depth
LoRaWAN in DepthLoRaWAN in Depth
LoRaWAN in DepthAPNIC
 
Beginners: 5G Terminology
Beginners: 5G TerminologyBeginners: 5G Terminology
Beginners: 5G Terminology3G4G
 
What is LoRaWaN
What is LoRaWaNWhat is LoRaWaN
What is LoRaWaNTom Zamir
 
Propelling 5G forward: a closer look at 3GPP Release-16
Propelling 5G forward: a closer look at 3GPP Release-16Propelling 5G forward: a closer look at 3GPP Release-16
Propelling 5G forward: a closer look at 3GPP Release-16Qualcomm Research
 
5G RAN fundamentals
5G RAN fundamentals5G RAN fundamentals
5G RAN fundamentalsRavi Sharma
 
Link adaptation and Adaptive coding,modulation system
Link adaptation and Adaptive coding,modulation systemLink adaptation and Adaptive coding,modulation system
Link adaptation and Adaptive coding,modulation systemDILSHAD AHMAD
 
Synchronization for 5G: the requirements and the solutions
Synchronization for 5G: the requirements and the solutionsSynchronization for 5G: the requirements and the solutions
Synchronization for 5G: the requirements and the solutionsADVA
 
Misc: Non millimeter Wave (mmWave) 5G
Misc: Non millimeter Wave (mmWave) 5GMisc: Non millimeter Wave (mmWave) 5G
Misc: Non millimeter Wave (mmWave) 5G3G4G
 
5 g ran architcture
5 g ran architcture5 g ran architcture
5 g ran architctureHemraj Kumar
 
RF measurement and optimization Engineer EMERSON EDUARDO RODRIGUES
RF measurement and optimization Engineer EMERSON EDUARDO RODRIGUESRF measurement and optimization Engineer EMERSON EDUARDO RODRIGUES
RF measurement and optimization Engineer EMERSON EDUARDO RODRIGUESEMERSON EDUARDO RODRIGUES
 

Was ist angesagt? (20)

5G Demystified; the what, when and where
5G Demystified; the what, when and where5G Demystified; the what, when and where
5G Demystified; the what, when and where
 
3GPP 5G Control Plane Service Based Architecture
3GPP 5G Control Plane Service Based Architecture3GPP 5G Control Plane Service Based Architecture
3GPP 5G Control Plane Service Based Architecture
 
LPWAN for IoT
LPWAN for IoTLPWAN for IoT
LPWAN for IoT
 
Beginners: Different Types of RAN Architectures - Distributed, Centralized & ...
Beginners: Different Types of RAN Architectures - Distributed, Centralized & ...Beginners: Different Types of RAN Architectures - Distributed, Centralized & ...
Beginners: Different Types of RAN Architectures - Distributed, Centralized & ...
 
Difference in Rrc procedures lte and 3G
Difference in Rrc procedures lte and 3GDifference in Rrc procedures lte and 3G
Difference in Rrc procedures lte and 3G
 
Webnesday - Introduction to LoRaWAN
Webnesday - Introduction to LoRaWANWebnesday - Introduction to LoRaWAN
Webnesday - Introduction to LoRaWAN
 
LoRa and NB-IoT
LoRa and NB-IoT LoRa and NB-IoT
LoRa and NB-IoT
 
6G Training Course Part 8: 6G Devices
6G Training Course Part 8: 6G Devices6G Training Course Part 8: 6G Devices
6G Training Course Part 8: 6G Devices
 
LoRaWAN in Depth
LoRaWAN in DepthLoRaWAN in Depth
LoRaWAN in Depth
 
Beginners: 5G Terminology
Beginners: 5G TerminologyBeginners: 5G Terminology
Beginners: 5G Terminology
 
What is LoRaWaN
What is LoRaWaNWhat is LoRaWaN
What is LoRaWaN
 
What is 5G?
What is 5G?What is 5G?
What is 5G?
 
Rf radio parameters
Rf radio parametersRf radio parameters
Rf radio parameters
 
Propelling 5G forward: a closer look at 3GPP Release-16
Propelling 5G forward: a closer look at 3GPP Release-16Propelling 5G forward: a closer look at 3GPP Release-16
Propelling 5G forward: a closer look at 3GPP Release-16
 
5G RAN fundamentals
5G RAN fundamentals5G RAN fundamentals
5G RAN fundamentals
 
Link adaptation and Adaptive coding,modulation system
Link adaptation and Adaptive coding,modulation systemLink adaptation and Adaptive coding,modulation system
Link adaptation and Adaptive coding,modulation system
 
Synchronization for 5G: the requirements and the solutions
Synchronization for 5G: the requirements and the solutionsSynchronization for 5G: the requirements and the solutions
Synchronization for 5G: the requirements and the solutions
 
Misc: Non millimeter Wave (mmWave) 5G
Misc: Non millimeter Wave (mmWave) 5GMisc: Non millimeter Wave (mmWave) 5G
Misc: Non millimeter Wave (mmWave) 5G
 
5 g ran architcture
5 g ran architcture5 g ran architcture
5 g ran architcture
 
RF measurement and optimization Engineer EMERSON EDUARDO RODRIGUES
RF measurement and optimization Engineer EMERSON EDUARDO RODRIGUESRF measurement and optimization Engineer EMERSON EDUARDO RODRIGUES
RF measurement and optimization Engineer EMERSON EDUARDO RODRIGUES
 

Andere mochten auch

Narrowband Internet of Things - R&S Whitepaper
Narrowband Internet of Things - R&S WhitepaperNarrowband Internet of Things - R&S Whitepaper
Narrowband Internet of Things - R&S Whitepaper3G4G
 
Internet of Things (IoT) Fog Computing Insights from Patents
Internet of Things (IoT) Fog Computing Insights from PatentsInternet of Things (IoT) Fog Computing Insights from Patents
Internet of Things (IoT) Fog Computing Insights from PatentsAlex G. Lee, Ph.D. Esq. CLP
 
An Introduction to IoT: Connectivity & Case Studies
An Introduction to IoT: Connectivity & Case StudiesAn Introduction to IoT: Connectivity & Case Studies
An Introduction to IoT: Connectivity & Case Studies3G4G
 
Critical networking using mesh Wi-SUN technology
Critical networking using mesh Wi-SUN technologyCritical networking using mesh Wi-SUN technology
Critical networking using mesh Wi-SUN technology3G4G
 
5G - Tech to business case
5G - Tech to business case5G - Tech to business case
5G - Tech to business case3G4G
 
AT&T View on LTE to 5G Network Migration
AT&T View on LTE to 5G Network Migration AT&T View on LTE to 5G Network Migration
AT&T View on LTE to 5G Network Migration Eiko Seidel
 
Overview 5G Architecture Options from Deutsche Telekom
Overview 5G Architecture Options from Deutsche TelekomOverview 5G Architecture Options from Deutsche Telekom
Overview 5G Architecture Options from Deutsche TelekomEiko Seidel
 
2G/3G Switch off Dates
2G/3G Switch off Dates2G/3G Switch off Dates
2G/3G Switch off Dates3G4G
 
Radio Frequency, Band and Spectrum
Radio Frequency, Band and SpectrumRadio Frequency, Band and Spectrum
Radio Frequency, Band and Spectrum3G4G
 
Building the foundations of Ultra-RELIABLE and Low-LATENCY Wireless Communica...
Building the foundations of Ultra-RELIABLE and Low-LATENCY Wireless Communica...Building the foundations of Ultra-RELIABLE and Low-LATENCY Wireless Communica...
Building the foundations of Ultra-RELIABLE and Low-LATENCY Wireless Communica...3G4G
 

Andere mochten auch (10)

Narrowband Internet of Things - R&S Whitepaper
Narrowband Internet of Things - R&S WhitepaperNarrowband Internet of Things - R&S Whitepaper
Narrowband Internet of Things - R&S Whitepaper
 
Internet of Things (IoT) Fog Computing Insights from Patents
Internet of Things (IoT) Fog Computing Insights from PatentsInternet of Things (IoT) Fog Computing Insights from Patents
Internet of Things (IoT) Fog Computing Insights from Patents
 
An Introduction to IoT: Connectivity & Case Studies
An Introduction to IoT: Connectivity & Case StudiesAn Introduction to IoT: Connectivity & Case Studies
An Introduction to IoT: Connectivity & Case Studies
 
Critical networking using mesh Wi-SUN technology
Critical networking using mesh Wi-SUN technologyCritical networking using mesh Wi-SUN technology
Critical networking using mesh Wi-SUN technology
 
5G - Tech to business case
5G - Tech to business case5G - Tech to business case
5G - Tech to business case
 
AT&T View on LTE to 5G Network Migration
AT&T View on LTE to 5G Network Migration AT&T View on LTE to 5G Network Migration
AT&T View on LTE to 5G Network Migration
 
Overview 5G Architecture Options from Deutsche Telekom
Overview 5G Architecture Options from Deutsche TelekomOverview 5G Architecture Options from Deutsche Telekom
Overview 5G Architecture Options from Deutsche Telekom
 
2G/3G Switch off Dates
2G/3G Switch off Dates2G/3G Switch off Dates
2G/3G Switch off Dates
 
Radio Frequency, Band and Spectrum
Radio Frequency, Band and SpectrumRadio Frequency, Band and Spectrum
Radio Frequency, Band and Spectrum
 
Building the foundations of Ultra-RELIABLE and Low-LATENCY Wireless Communica...
Building the foundations of Ultra-RELIABLE and Low-LATENCY Wireless Communica...Building the foundations of Ultra-RELIABLE and Low-LATENCY Wireless Communica...
Building the foundations of Ultra-RELIABLE and Low-LATENCY Wireless Communica...
 

Ähnlich wie 3GPP Standards for the Internet-of-Things

3gpp standards_for_iot
3gpp standards_for_iot3gpp standards_for_iot
3gpp standards_for_iotSaurabh Verma
 
Slides dayone-121110052003-phpapp02
Slides dayone-121110052003-phpapp02Slides dayone-121110052003-phpapp02
Slides dayone-121110052003-phpapp02Engr Kamrul Hasan
 
Day one 09 november 2012
Day one 09 november 2012Day one 09 november 2012
Day one 09 november 2012Arief Gunawan
 
3GPP_4G to 5G networks evolution and releases.pdf
3GPP_4G to 5G networks evolution and releases.pdf3GPP_4G to 5G networks evolution and releases.pdf
3GPP_4G to 5G networks evolution and releases.pdfXinHuang548256
 
Lte epc ieee_comsoc_rao_april_8_2010
Lte epc ieee_comsoc_rao_april_8_2010Lte epc ieee_comsoc_rao_april_8_2010
Lte epc ieee_comsoc_rao_april_8_2010Supachok Sappasri
 
2018-04-17_GA-booth__3gppNR_compressed.ppt
2018-04-17_GA-booth__3gppNR_compressed.ppt2018-04-17_GA-booth__3gppNR_compressed.ppt
2018-04-17_GA-booth__3gppNR_compressed.pptssuser38e5dc1
 
Technology briefing 11 nov2010_media_kit (1)
Technology briefing 11 nov2010_media_kit (1)Technology briefing 11 nov2010_media_kit (1)
Technology briefing 11 nov2010_media_kit (1)Abe Olandres
 
3GPP RAN progress on “5G”
3GPP RAN progress on “5G”3GPP RAN progress on “5G”
3GPP RAN progress on “5G”Nitin Gupta
 
Wcdma systems 003
Wcdma systems 003Wcdma systems 003
Wcdma systems 003Basil John
 
2011 Broadband Tech Update to Electronic Engineers in the Philippines
2011 Broadband Tech Update to Electronic Engineers in the Philippines 2011 Broadband Tech Update to Electronic Engineers in the Philippines
2011 Broadband Tech Update to Electronic Engineers in the Philippines Francisco "Cocoy" Claravall
 
Rev 0900023gpplte Advancedintroduction 100324021148 Phpapp01
Rev 0900023gpplte Advancedintroduction 100324021148 Phpapp01Rev 0900023gpplte Advancedintroduction 100324021148 Phpapp01
Rev 0900023gpplte Advancedintroduction 100324021148 Phpapp01Deepak Sharma
 
LTE and LTE Advanced Introduction
LTE and LTE Advanced IntroductionLTE and LTE Advanced Introduction
LTE and LTE Advanced IntroductionBP Tiwari
 
3GPP Standardisation & Evolution for Digital Infrastucture.pdf
3GPP Standardisation & Evolution for Digital Infrastucture.pdf3GPP Standardisation & Evolution for Digital Infrastucture.pdf
3GPP Standardisation & Evolution for Digital Infrastucture.pdf21stMilestoneResiden
 

Ähnlich wie 3GPP Standards for the Internet-of-Things (20)

3gpp standards_for_iot
3gpp standards_for_iot3gpp standards_for_iot
3gpp standards_for_iot
 
Slides dayone-121110052003-phpapp02
Slides dayone-121110052003-phpapp02Slides dayone-121110052003-phpapp02
Slides dayone-121110052003-phpapp02
 
Day one 09 november 2012
Day one 09 november 2012Day one 09 november 2012
Day one 09 november 2012
 
3GPP_4G to 5G networks evolution and releases.pdf
3GPP_4G to 5G networks evolution and releases.pdf3GPP_4G to 5G networks evolution and releases.pdf
3GPP_4G to 5G networks evolution and releases.pdf
 
Slides day one
Slides   day oneSlides   day one
Slides day one
 
Lte epc ieee_comsoc_rao_april_8_2010
Lte epc ieee_comsoc_rao_april_8_2010Lte epc ieee_comsoc_rao_april_8_2010
Lte epc ieee_comsoc_rao_april_8_2010
 
2018-04-17_GA-booth__3gppNR_compressed.ppt
2018-04-17_GA-booth__3gppNR_compressed.ppt2018-04-17_GA-booth__3gppNR_compressed.ppt
2018-04-17_GA-booth__3gppNR_compressed.ppt
 
3gpp lte
3gpp lte3gpp lte
3gpp lte
 
3 gpp – overview
3 gpp – overview3 gpp – overview
3 gpp – overview
 
1 tmo18023 umts overview
1 tmo18023 umts overview1 tmo18023 umts overview
1 tmo18023 umts overview
 
Technology briefing 11 nov2010_media_kit (1)
Technology briefing 11 nov2010_media_kit (1)Technology briefing 11 nov2010_media_kit (1)
Technology briefing 11 nov2010_media_kit (1)
 
3GPP RAN progress on “5G”
3GPP RAN progress on “5G”3GPP RAN progress on “5G”
3GPP RAN progress on “5G”
 
3 gpp – sum,it pdf
3 gpp – sum,it pdf3 gpp – sum,it pdf
3 gpp – sum,it pdf
 
Wcdma systems 003
Wcdma systems 003Wcdma systems 003
Wcdma systems 003
 
Lte basics
Lte basicsLte basics
Lte basics
 
2011 Broadband Tech Update to Electronic Engineers in the Philippines
2011 Broadband Tech Update to Electronic Engineers in the Philippines 2011 Broadband Tech Update to Electronic Engineers in the Philippines
2011 Broadband Tech Update to Electronic Engineers in the Philippines
 
Rev 0900023gpplte Advancedintroduction 100324021148 Phpapp01
Rev 0900023gpplte Advancedintroduction 100324021148 Phpapp01Rev 0900023gpplte Advancedintroduction 100324021148 Phpapp01
Rev 0900023gpplte Advancedintroduction 100324021148 Phpapp01
 
LTE and LTE Advanced Introduction
LTE and LTE Advanced IntroductionLTE and LTE Advanced Introduction
LTE and LTE Advanced Introduction
 
3GPP Standardisation & Evolution for Digital Infrastucture.pdf
3GPP Standardisation & Evolution for Digital Infrastucture.pdf3GPP Standardisation & Evolution for Digital Infrastucture.pdf
3GPP Standardisation & Evolution for Digital Infrastucture.pdf
 
Pre 5G Trials
Pre 5G TrialsPre 5G Trials
Pre 5G Trials
 

Mehr von Eiko Seidel

Qcom XR Workshop Sept 2020
Qcom XR Workshop Sept 2020Qcom XR Workshop Sept 2020
Qcom XR Workshop Sept 2020Eiko Seidel
 
Nokia 3GPP Industry e-Workshop on XR Sept 2020
Nokia 3GPP Industry e-Workshop on XR Sept 2020Nokia 3GPP Industry e-Workshop on XR Sept 2020
Nokia 3GPP Industry e-Workshop on XR Sept 2020Eiko Seidel
 
5G NR Coverage Analysis for 700 MHz
5G NR Coverage Analysis for 700 MHz 5G NR Coverage Analysis for 700 MHz
5G NR Coverage Analysis for 700 MHz Eiko Seidel
 
Final Performance Evaluation of 3GPP NR eMBB within 5G-PPP consortium
Final Performance Evaluation of 3GPP NR eMBB within 5G-PPP consortiumFinal Performance Evaluation of 3GPP NR eMBB within 5G-PPP consortium
Final Performance Evaluation of 3GPP NR eMBB within 5G-PPP consortiumEiko Seidel
 
Motivation and results coverage enhancment for 3GPP NR Rel.17
Motivation and results coverage enhancment for 3GPP NR Rel.17 Motivation and results coverage enhancment for 3GPP NR Rel.17
Motivation and results coverage enhancment for 3GPP NR Rel.17 Eiko Seidel
 
White paper coord_la_and_ec
White paper coord_la_and_ecWhite paper coord_la_and_ec
White paper coord_la_and_ecEiko Seidel
 
Evaluation of 5G Data Duplication for URLLC - Nomor Reseach GmbH
Evaluation of 5G Data Duplication for URLLC - Nomor Reseach GmbHEvaluation of 5G Data Duplication for URLLC - Nomor Reseach GmbH
Evaluation of 5G Data Duplication for URLLC - Nomor Reseach GmbHEiko Seidel
 
Status of 3GPP NR Rel.16 NR bands and band combinations
Status of 3GPP NR Rel.16 NR bands and band combinationsStatus of 3GPP NR Rel.16 NR bands and band combinations
Status of 3GPP NR Rel.16 NR bands and band combinationsEiko Seidel
 
A Flexible Network Architecture for 5G Systems
A Flexible Network Architecture for 5G SystemsA Flexible Network Architecture for 5G Systems
A Flexible Network Architecture for 5G SystemsEiko Seidel
 
Overview 5G NR Radio Protocols by Intel
Overview 5G NR Radio Protocols by Intel Overview 5G NR Radio Protocols by Intel
Overview 5G NR Radio Protocols by Intel Eiko Seidel
 
Overview 3GPP NR Physical Layer
Overview 3GPP NR Physical LayerOverview 3GPP NR Physical Layer
Overview 3GPP NR Physical LayerEiko Seidel
 
Towards achieving-high-performance-in-5g-mobile-packet-cores-user-plane-function
Towards achieving-high-performance-in-5g-mobile-packet-cores-user-plane-functionTowards achieving-high-performance-in-5g-mobile-packet-cores-user-plane-function
Towards achieving-high-performance-in-5g-mobile-packet-cores-user-plane-functionEiko Seidel
 
3GPP Activity towards IMT-2020, G. Romano, TIM, Workshop on IMT-2020 Munich o...
3GPP Activity towards IMT-2020, G. Romano, TIM, Workshop on IMT-2020 Munich o...3GPP Activity towards IMT-2020, G. Romano, TIM, Workshop on IMT-2020 Munich o...
3GPP Activity towards IMT-2020, G. Romano, TIM, Workshop on IMT-2020 Munich o...Eiko Seidel
 
Nokia 5G Workshop Taiwan Oct 2016
Nokia 5G Workshop Taiwan Oct 2016Nokia 5G Workshop Taiwan Oct 2016
Nokia 5G Workshop Taiwan Oct 2016Eiko Seidel
 
Status 3GPP LTE-V2X work item on vehicular communication - Sept 2016
Status 3GPP LTE-V2X work item on vehicular communication - Sept 2016 Status 3GPP LTE-V2X work item on vehicular communication - Sept 2016
Status 3GPP LTE-V2X work item on vehicular communication - Sept 2016 Eiko Seidel
 
3GPP Newsletter: Status 5G Architecture Study in 3GPP SA2
3GPP Newsletter: Status 5G Architecture Study in 3GPP SA23GPP Newsletter: Status 5G Architecture Study in 3GPP SA2
3GPP Newsletter: Status 5G Architecture Study in 3GPP SA2Eiko Seidel
 
5G New Radio Timeline after RAN#72 RP-161253
5G New Radio Timeline after RAN#72 RP-1612535G New Radio Timeline after RAN#72 RP-161253
5G New Radio Timeline after RAN#72 RP-161253Eiko Seidel
 
5G RAN - Split of Functions between Central and Distributed Unit
5G RAN - Split of Functions between Central and Distributed Unit5G RAN - Split of Functions between Central and Distributed Unit
5G RAN - Split of Functions between Central and Distributed UnitEiko Seidel
 
Huawei about LTE V2X Standardisation in 3GPP
Huawei about LTE V2X Standardisation in 3GPPHuawei about LTE V2X Standardisation in 3GPP
Huawei about LTE V2X Standardisation in 3GPPEiko Seidel
 
White Paper: Dynamic TDD for LTE-a (eIMTA) and 5G
White Paper: Dynamic TDD for LTE-a (eIMTA) and 5GWhite Paper: Dynamic TDD for LTE-a (eIMTA) and 5G
White Paper: Dynamic TDD for LTE-a (eIMTA) and 5GEiko Seidel
 

Mehr von Eiko Seidel (20)

Qcom XR Workshop Sept 2020
Qcom XR Workshop Sept 2020Qcom XR Workshop Sept 2020
Qcom XR Workshop Sept 2020
 
Nokia 3GPP Industry e-Workshop on XR Sept 2020
Nokia 3GPP Industry e-Workshop on XR Sept 2020Nokia 3GPP Industry e-Workshop on XR Sept 2020
Nokia 3GPP Industry e-Workshop on XR Sept 2020
 
5G NR Coverage Analysis for 700 MHz
5G NR Coverage Analysis for 700 MHz 5G NR Coverage Analysis for 700 MHz
5G NR Coverage Analysis for 700 MHz
 
Final Performance Evaluation of 3GPP NR eMBB within 5G-PPP consortium
Final Performance Evaluation of 3GPP NR eMBB within 5G-PPP consortiumFinal Performance Evaluation of 3GPP NR eMBB within 5G-PPP consortium
Final Performance Evaluation of 3GPP NR eMBB within 5G-PPP consortium
 
Motivation and results coverage enhancment for 3GPP NR Rel.17
Motivation and results coverage enhancment for 3GPP NR Rel.17 Motivation and results coverage enhancment for 3GPP NR Rel.17
Motivation and results coverage enhancment for 3GPP NR Rel.17
 
White paper coord_la_and_ec
White paper coord_la_and_ecWhite paper coord_la_and_ec
White paper coord_la_and_ec
 
Evaluation of 5G Data Duplication for URLLC - Nomor Reseach GmbH
Evaluation of 5G Data Duplication for URLLC - Nomor Reseach GmbHEvaluation of 5G Data Duplication for URLLC - Nomor Reseach GmbH
Evaluation of 5G Data Duplication for URLLC - Nomor Reseach GmbH
 
Status of 3GPP NR Rel.16 NR bands and band combinations
Status of 3GPP NR Rel.16 NR bands and band combinationsStatus of 3GPP NR Rel.16 NR bands and band combinations
Status of 3GPP NR Rel.16 NR bands and band combinations
 
A Flexible Network Architecture for 5G Systems
A Flexible Network Architecture for 5G SystemsA Flexible Network Architecture for 5G Systems
A Flexible Network Architecture for 5G Systems
 
Overview 5G NR Radio Protocols by Intel
Overview 5G NR Radio Protocols by Intel Overview 5G NR Radio Protocols by Intel
Overview 5G NR Radio Protocols by Intel
 
Overview 3GPP NR Physical Layer
Overview 3GPP NR Physical LayerOverview 3GPP NR Physical Layer
Overview 3GPP NR Physical Layer
 
Towards achieving-high-performance-in-5g-mobile-packet-cores-user-plane-function
Towards achieving-high-performance-in-5g-mobile-packet-cores-user-plane-functionTowards achieving-high-performance-in-5g-mobile-packet-cores-user-plane-function
Towards achieving-high-performance-in-5g-mobile-packet-cores-user-plane-function
 
3GPP Activity towards IMT-2020, G. Romano, TIM, Workshop on IMT-2020 Munich o...
3GPP Activity towards IMT-2020, G. Romano, TIM, Workshop on IMT-2020 Munich o...3GPP Activity towards IMT-2020, G. Romano, TIM, Workshop on IMT-2020 Munich o...
3GPP Activity towards IMT-2020, G. Romano, TIM, Workshop on IMT-2020 Munich o...
 
Nokia 5G Workshop Taiwan Oct 2016
Nokia 5G Workshop Taiwan Oct 2016Nokia 5G Workshop Taiwan Oct 2016
Nokia 5G Workshop Taiwan Oct 2016
 
Status 3GPP LTE-V2X work item on vehicular communication - Sept 2016
Status 3GPP LTE-V2X work item on vehicular communication - Sept 2016 Status 3GPP LTE-V2X work item on vehicular communication - Sept 2016
Status 3GPP LTE-V2X work item on vehicular communication - Sept 2016
 
3GPP Newsletter: Status 5G Architecture Study in 3GPP SA2
3GPP Newsletter: Status 5G Architecture Study in 3GPP SA23GPP Newsletter: Status 5G Architecture Study in 3GPP SA2
3GPP Newsletter: Status 5G Architecture Study in 3GPP SA2
 
5G New Radio Timeline after RAN#72 RP-161253
5G New Radio Timeline after RAN#72 RP-1612535G New Radio Timeline after RAN#72 RP-161253
5G New Radio Timeline after RAN#72 RP-161253
 
5G RAN - Split of Functions between Central and Distributed Unit
5G RAN - Split of Functions between Central and Distributed Unit5G RAN - Split of Functions between Central and Distributed Unit
5G RAN - Split of Functions between Central and Distributed Unit
 
Huawei about LTE V2X Standardisation in 3GPP
Huawei about LTE V2X Standardisation in 3GPPHuawei about LTE V2X Standardisation in 3GPP
Huawei about LTE V2X Standardisation in 3GPP
 
White Paper: Dynamic TDD for LTE-a (eIMTA) and 5G
White Paper: Dynamic TDD for LTE-a (eIMTA) and 5GWhite Paper: Dynamic TDD for LTE-a (eIMTA) and 5G
White Paper: Dynamic TDD for LTE-a (eIMTA) and 5G
 

Kürzlich hochgeladen

Nanopower In Semiconductor Industry.pdf
Nanopower  In Semiconductor Industry.pdfNanopower  In Semiconductor Industry.pdf
Nanopower In Semiconductor Industry.pdfPedro Manuel
 
PicPay - GenAI Finance Assistant - ChatGPT for Customer Service
PicPay - GenAI Finance Assistant - ChatGPT for Customer ServicePicPay - GenAI Finance Assistant - ChatGPT for Customer Service
PicPay - GenAI Finance Assistant - ChatGPT for Customer ServiceRenan Moreira de Oliveira
 
IaC & GitOps in a Nutshell - a FridayInANuthshell Episode.pdf
IaC & GitOps in a Nutshell - a FridayInANuthshell Episode.pdfIaC & GitOps in a Nutshell - a FridayInANuthshell Episode.pdf
IaC & GitOps in a Nutshell - a FridayInANuthshell Episode.pdfDaniel Santiago Silva Capera
 
Using IESVE for Loads, Sizing and Heat Pump Modeling to Achieve Decarbonization
Using IESVE for Loads, Sizing and Heat Pump Modeling to Achieve DecarbonizationUsing IESVE for Loads, Sizing and Heat Pump Modeling to Achieve Decarbonization
Using IESVE for Loads, Sizing and Heat Pump Modeling to Achieve DecarbonizationIES VE
 
Apres-Cyber - The Data Dilemma: Bridging Offensive Operations and Machine Lea...
Apres-Cyber - The Data Dilemma: Bridging Offensive Operations and Machine Lea...Apres-Cyber - The Data Dilemma: Bridging Offensive Operations and Machine Lea...
Apres-Cyber - The Data Dilemma: Bridging Offensive Operations and Machine Lea...Will Schroeder
 
UWB Technology for Enhanced Indoor and Outdoor Positioning in Physiological M...
UWB Technology for Enhanced Indoor and Outdoor Positioning in Physiological M...UWB Technology for Enhanced Indoor and Outdoor Positioning in Physiological M...
UWB Technology for Enhanced Indoor and Outdoor Positioning in Physiological M...UbiTrack UK
 
Machine Learning Model Validation (Aijun Zhang 2024).pdf
Machine Learning Model Validation (Aijun Zhang 2024).pdfMachine Learning Model Validation (Aijun Zhang 2024).pdf
Machine Learning Model Validation (Aijun Zhang 2024).pdfAijun Zhang
 
UiPath Community: AI for UiPath Automation Developers
UiPath Community: AI for UiPath Automation DevelopersUiPath Community: AI for UiPath Automation Developers
UiPath Community: AI for UiPath Automation DevelopersUiPathCommunity
 
OpenShift Commons Paris - Choose Your Own Observability Adventure
OpenShift Commons Paris - Choose Your Own Observability AdventureOpenShift Commons Paris - Choose Your Own Observability Adventure
OpenShift Commons Paris - Choose Your Own Observability AdventureEric D. Schabell
 
20200723_insight_release_plan_v6.pdf20200723_insight_release_plan_v6.pdf
20200723_insight_release_plan_v6.pdf20200723_insight_release_plan_v6.pdf20200723_insight_release_plan_v6.pdf20200723_insight_release_plan_v6.pdf
20200723_insight_release_plan_v6.pdf20200723_insight_release_plan_v6.pdfJamie (Taka) Wang
 
The Data Metaverse: Unpacking the Roles, Use Cases, and Tech Trends in Data a...
The Data Metaverse: Unpacking the Roles, Use Cases, and Tech Trends in Data a...The Data Metaverse: Unpacking the Roles, Use Cases, and Tech Trends in Data a...
The Data Metaverse: Unpacking the Roles, Use Cases, and Tech Trends in Data a...Aggregage
 
Computer 10: Lesson 10 - Online Crimes and Hazards
Computer 10: Lesson 10 - Online Crimes and HazardsComputer 10: Lesson 10 - Online Crimes and Hazards
Computer 10: Lesson 10 - Online Crimes and HazardsSeth Reyes
 
KubeConEU24-Monitoring Kubernetes and Cloud Spend with OpenCost
KubeConEU24-Monitoring Kubernetes and Cloud Spend with OpenCostKubeConEU24-Monitoring Kubernetes and Cloud Spend with OpenCost
KubeConEU24-Monitoring Kubernetes and Cloud Spend with OpenCostMatt Ray
 
COMPUTER 10: Lesson 7 - File Storage and Online Collaboration
COMPUTER 10: Lesson 7 - File Storage and Online CollaborationCOMPUTER 10: Lesson 7 - File Storage and Online Collaboration
COMPUTER 10: Lesson 7 - File Storage and Online Collaborationbruanjhuli
 
How to Effectively Monitor SD-WAN and SASE Environments with ThousandEyes
How to Effectively Monitor SD-WAN and SASE Environments with ThousandEyesHow to Effectively Monitor SD-WAN and SASE Environments with ThousandEyes
How to Effectively Monitor SD-WAN and SASE Environments with ThousandEyesThousandEyes
 
Basic Building Blocks of Internet of Things.
Basic Building Blocks of Internet of Things.Basic Building Blocks of Internet of Things.
Basic Building Blocks of Internet of Things.YounusS2
 
IESVE Software for Florida Code Compliance Using ASHRAE 90.1-2019
IESVE Software for Florida Code Compliance Using ASHRAE 90.1-2019IESVE Software for Florida Code Compliance Using ASHRAE 90.1-2019
IESVE Software for Florida Code Compliance Using ASHRAE 90.1-2019IES VE
 
UiPath Studio Web workshop series - Day 7
UiPath Studio Web workshop series - Day 7UiPath Studio Web workshop series - Day 7
UiPath Studio Web workshop series - Day 7DianaGray10
 
Babel Compiler - Transforming JavaScript for All Browsers.pptx
Babel Compiler - Transforming JavaScript for All Browsers.pptxBabel Compiler - Transforming JavaScript for All Browsers.pptx
Babel Compiler - Transforming JavaScript for All Browsers.pptxYounusS2
 
UiPath Studio Web workshop series - Day 6
UiPath Studio Web workshop series - Day 6UiPath Studio Web workshop series - Day 6
UiPath Studio Web workshop series - Day 6DianaGray10
 

Kürzlich hochgeladen (20)

Nanopower In Semiconductor Industry.pdf
Nanopower  In Semiconductor Industry.pdfNanopower  In Semiconductor Industry.pdf
Nanopower In Semiconductor Industry.pdf
 
PicPay - GenAI Finance Assistant - ChatGPT for Customer Service
PicPay - GenAI Finance Assistant - ChatGPT for Customer ServicePicPay - GenAI Finance Assistant - ChatGPT for Customer Service
PicPay - GenAI Finance Assistant - ChatGPT for Customer Service
 
IaC & GitOps in a Nutshell - a FridayInANuthshell Episode.pdf
IaC & GitOps in a Nutshell - a FridayInANuthshell Episode.pdfIaC & GitOps in a Nutshell - a FridayInANuthshell Episode.pdf
IaC & GitOps in a Nutshell - a FridayInANuthshell Episode.pdf
 
Using IESVE for Loads, Sizing and Heat Pump Modeling to Achieve Decarbonization
Using IESVE for Loads, Sizing and Heat Pump Modeling to Achieve DecarbonizationUsing IESVE for Loads, Sizing and Heat Pump Modeling to Achieve Decarbonization
Using IESVE for Loads, Sizing and Heat Pump Modeling to Achieve Decarbonization
 
Apres-Cyber - The Data Dilemma: Bridging Offensive Operations and Machine Lea...
Apres-Cyber - The Data Dilemma: Bridging Offensive Operations and Machine Lea...Apres-Cyber - The Data Dilemma: Bridging Offensive Operations and Machine Lea...
Apres-Cyber - The Data Dilemma: Bridging Offensive Operations and Machine Lea...
 
UWB Technology for Enhanced Indoor and Outdoor Positioning in Physiological M...
UWB Technology for Enhanced Indoor and Outdoor Positioning in Physiological M...UWB Technology for Enhanced Indoor and Outdoor Positioning in Physiological M...
UWB Technology for Enhanced Indoor and Outdoor Positioning in Physiological M...
 
Machine Learning Model Validation (Aijun Zhang 2024).pdf
Machine Learning Model Validation (Aijun Zhang 2024).pdfMachine Learning Model Validation (Aijun Zhang 2024).pdf
Machine Learning Model Validation (Aijun Zhang 2024).pdf
 
UiPath Community: AI for UiPath Automation Developers
UiPath Community: AI for UiPath Automation DevelopersUiPath Community: AI for UiPath Automation Developers
UiPath Community: AI for UiPath Automation Developers
 
OpenShift Commons Paris - Choose Your Own Observability Adventure
OpenShift Commons Paris - Choose Your Own Observability AdventureOpenShift Commons Paris - Choose Your Own Observability Adventure
OpenShift Commons Paris - Choose Your Own Observability Adventure
 
20200723_insight_release_plan_v6.pdf20200723_insight_release_plan_v6.pdf
20200723_insight_release_plan_v6.pdf20200723_insight_release_plan_v6.pdf20200723_insight_release_plan_v6.pdf20200723_insight_release_plan_v6.pdf
20200723_insight_release_plan_v6.pdf20200723_insight_release_plan_v6.pdf
 
The Data Metaverse: Unpacking the Roles, Use Cases, and Tech Trends in Data a...
The Data Metaverse: Unpacking the Roles, Use Cases, and Tech Trends in Data a...The Data Metaverse: Unpacking the Roles, Use Cases, and Tech Trends in Data a...
The Data Metaverse: Unpacking the Roles, Use Cases, and Tech Trends in Data a...
 
Computer 10: Lesson 10 - Online Crimes and Hazards
Computer 10: Lesson 10 - Online Crimes and HazardsComputer 10: Lesson 10 - Online Crimes and Hazards
Computer 10: Lesson 10 - Online Crimes and Hazards
 
KubeConEU24-Monitoring Kubernetes and Cloud Spend with OpenCost
KubeConEU24-Monitoring Kubernetes and Cloud Spend with OpenCostKubeConEU24-Monitoring Kubernetes and Cloud Spend with OpenCost
KubeConEU24-Monitoring Kubernetes and Cloud Spend with OpenCost
 
COMPUTER 10: Lesson 7 - File Storage and Online Collaboration
COMPUTER 10: Lesson 7 - File Storage and Online CollaborationCOMPUTER 10: Lesson 7 - File Storage and Online Collaboration
COMPUTER 10: Lesson 7 - File Storage and Online Collaboration
 
How to Effectively Monitor SD-WAN and SASE Environments with ThousandEyes
How to Effectively Monitor SD-WAN and SASE Environments with ThousandEyesHow to Effectively Monitor SD-WAN and SASE Environments with ThousandEyes
How to Effectively Monitor SD-WAN and SASE Environments with ThousandEyes
 
Basic Building Blocks of Internet of Things.
Basic Building Blocks of Internet of Things.Basic Building Blocks of Internet of Things.
Basic Building Blocks of Internet of Things.
 
IESVE Software for Florida Code Compliance Using ASHRAE 90.1-2019
IESVE Software for Florida Code Compliance Using ASHRAE 90.1-2019IESVE Software for Florida Code Compliance Using ASHRAE 90.1-2019
IESVE Software for Florida Code Compliance Using ASHRAE 90.1-2019
 
UiPath Studio Web workshop series - Day 7
UiPath Studio Web workshop series - Day 7UiPath Studio Web workshop series - Day 7
UiPath Studio Web workshop series - Day 7
 
Babel Compiler - Transforming JavaScript for All Browsers.pptx
Babel Compiler - Transforming JavaScript for All Browsers.pptxBabel Compiler - Transforming JavaScript for All Browsers.pptx
Babel Compiler - Transforming JavaScript for All Browsers.pptx
 
UiPath Studio Web workshop series - Day 6
UiPath Studio Web workshop series - Day 6UiPath Studio Web workshop series - Day 6
UiPath Studio Web workshop series - Day 6
 

3GPP Standards for the Internet-of-Things

  • 1. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 1 3GPP Standards for the Internet-of-Things Philippe Reininger Chairman of 3GPP RAN WG 3 (Huawei)
  • 2. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 2 Organizational Partners (SDOs) • Regional standards organizations: Market Representative Partners • 16 Market partners representing the broader industry: Partnership • 5G Americas, • COAI (India), • CTIA, • GCF, • GSA, • GSMA, • IPV6 Forum, • MDG (formerly CDG), • NGMN Alliance, • Small Cell Forum, • TCCA, • TD Industry Alliance, • TD-Forum NEW: • Wireless Broadband Alliance • 5G Infrastructure Association • Public Safety Communication Europe (PSCE) Forum • ARIB (Japan), • ATIS (USA), • CCSA (China), • ETSI (Europe), • TTA (Korea), • TTC (Japan), • TSDSI (India)
  • 3. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 3 Developing internet protocol specs ITU-R/T Developing Mobile application specs Referring to 3GPP specs (contributed by individual members) Partners of 3GPP Referring to 3GPP specs for the local specs Referring to specs Cross reference Developing Wireless LAN/MAN specs Requirements Input specs JapanEU Korea China North America Market Partners Developing Recommendations Terminal Certification Terminal certification based on 3GPP specs Cross reference of specs The 3GPP Eco-system India
  • 4. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 4 0 1000 2000 3000 4000 5000 6000 7000 8000 1999 2001 2003 2005 2007 2009 2011 2013 2015 ~400 Companies from 39 Countries 50.000 delegate days per year 40.000 documents per year 1.200 specs per Release New Release every ~18 months 3GPP Facts and Figures Europe 41% Asia 38% North America 21% Participation by Region R99 R4 R5 R6 R7 R8 R9 R10 R11 R12 R13 R14 Approved CRs per year per Release
  • 5. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 5 Introduction & timeline In Release-13 3GPP has made a major effort to address the IoT market The portfolio of technologies that 3GPP operators can now use to address their different market requirements includes: 1. eMTC Further LTE enhancements for Machine Type Communications, building on the work started in Release-12 (UE Cat 0, new power saving mode: PSM) 2. NB-IOT New radio added to the LTE platform optimized for the low end of the market 3. EC-GSM-IoT EGPRS enhancements which in combination with PSM makes GSM/EDGE markets prepared for IoT The Release-13 is frozen and additional work is on-going for Release-14
  • 6. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 6 Summary for eMTC, NB-IOT and EC-GSM-IoT eMTC (LTE Cat M1) NB-IOT EC-GSM-IoT Deployment In-band LTE In-band & Guard-band LTE, standalone In-band GSM Coverage* 155.7 dB 164 dB for standalone, FFS others 164 dB, with 33dBm power class 154 dB, with 23dBm power class Downlink OFDMA, 15 KHz tone spacing, Turbo Code, 16 QAM, 1 Rx OFDMA, 15 KHz tone spacing, 1 Rx TDMA/FDMA, GMSK and 8PSK (optional), 1 Rx Uplink SC-FDMA, 15 KHz tone spacing Turbo code, 16 QAM Single tone, 15 KHz and 3.75 KHz spacing SC-FDMA, 15 KHz tone spacing, Turbo code TDMA/FDMA, GMSK and 8PSK (optional) Bandwidth 1.08 MHz 180 KHz 200kHz per channel. Typical system bandwidth of 2.4MHz [smaller bandwidth down to 600 kHz being studied within Rel-13] Peak rate (DL/UL) 1 Mbps for DL and UL DL: ~50 kbps UL: ~50 for multi-tone, ~20 kbps for single tone For DL and UL (using 4 timeslots): ~70 kbps (GMSK), ~240kbps (8PSK) Duplexing FD & HD (type B), FDD & TDD HD (type B), FDD HD, FDD Power saving PSM, ext. I-DRX, C-DRX PSM, ext. I-DRX, C-DRX PSM, ext. I-DRX Power class 23 dBm, 20 dBm 23 dBm, others TBD 33 dBm, 23 dBm * In terms of MCL target. Targets for different technologies are based on somewhat different link budget assumptions (see TR 36.888/45.820 for more information).
  • 7. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 7 eMTC Objectives • Long battery life: ~10 years of operation with 5 Watt Hour battery (depending on traffic and coverage needs) • Low device cost: comparable to that of GPRS/GSM devices (as in the 3GPP work item description) • Extended coverage: >155.7 dB maximum coupling loss (MCL) • Variable rates: ~10 kbps to 1 Mbps depending on coverage needs Deployment • Can be deployed in any LTE spectrum • Coexist with other LTE services within the same bandwidth • Support FDD, TDD and half duplex (HD) modes • Reuse existing LTE base stations with software update Main PHY/RF features • Narrowband operation with 1.08 MHz bandwidth • Frequency hopping with narrowband retuning for frequency diversity • TTI bundling/repetition to achieve large coverage enhancements • New UE power class of 20 dBm • Further cost reduction beyond Cat 0 (no wideband control channel, reduced TM support, reduced HARQ)
  • 8. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 8 Rel-14: eMTC enhancements Main feature enhancements • Support for positioning (E-CID and OTDOA) • Support for Multicast (SC-PTM) • Mobility for inter-frequency measurements • Higher data rates • Specify HARQ-ACK bundling in CE mode A in HD-FDD • Larger maximum TBS • Larger max. PDSCH/PUSCH channel bandwidth in connected mode at least in CE mode A in order to enhance support e.g. voice and audio streaming or other applications and scenarios • Up to 10 DL HARQ processes in CE mode A in FD-FDD • Support for VoLTE (technics to reduce DL repetitions, new repetition factors, and adjusted scheduling delays)
  • 9. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 9 NB-IOT Objectives • Even lower cost than eMTC • Extended coverage: 164 dB maximum coupling loss (at least for standalone) • Long battery life: 10 years with 5 Watt Hour battery (depending on traffic and coverage needs) • Support for massive number of devices: at least 50.000 per cell Main simplification • Reduced data rate/bandwidth, mobility support and further protocol optimizations NB-IOT supports 3 modes of operation: • Stand-alone: utilizing stand-alone carrier, e.g. spectrum currently used by GERAN systems as a replacement of one or more GSM carriers • Guard band: utilizing the unused resource blocks within a LTE carrier’s guard-band • In-band: utilizing resource blocks within a normal LTE carrier
  • 10. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 10 NB-IOT (cont’d) Main PHY features • Narrow band support of 180 kHz • Supports two modes for uplink • Single tone with 15 kHz and/or 3.75 kHz tone spacing • Multiple tone transmissions with 15 kHz tone spacing • No support of Turbo code for the downlink • Single transmission mode of SFBC for PBCH, PDSCH, PDCCH • New narrowband channels: • NPSS, NSSS, NPBCH, NPDCCH, NPDSCH, NPUSCH, NPRACH Main radio protocol features • Single HARQ process • Only RLC AM mode with simplified status reporting • Two PDCP options: 1. SRB 0 and 1 only. No AS security (NAS security is used instead). PDCP operating in transparent mode. 2. SRB 0, 1, 2 and one DRB. AS security, which is cached upon RRC connection release. • For PDCP option 2, RRC connection suspend/resume procedures to maintain AS security context. • Significantly reduced broadcast system information
  • 11. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 11 Rel-14: NB-IOT enhancements Agreement on NB-IOT positioning • OTDOA is supported • Baseline signal(s) are: NB-IoT Rel-13 signals, LTE CRS/PRS in 1 PRB • UTDOA positioning is supported under the following conditions: • It uses an existing NB-IoT transmission • It can be used by Rel-13 UEs • Any signal used for positioning needs to have its accuracy, complexity, UE power consumption performance confirmed Main feature enhancements • Support for Multicast (SC-PTM) • Power consumption and latency reduction (DL and UL for 2 HARQ processes and larger maximum TBS) • Non- Anchor PRB enhancements (transmission of NPRACH/Paging on a non-anchor NB-IoT PRB) • Mobility and service continuity enhancements (without the increasing of UE power consumption) • New Power Class(es) (if appropriate, specify new UE power class(es) (e.g. 14dBm))
  • 12. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 12 Enhanced DRX for NB-IOT and eMTC Extended C-DRX and I-DRX operation • Connected Mode (C-eDRX): • Extended DRX cycles of 5.12s and 10.24s are supported • Idle mode (I-eDRX): • Extended DRX cycles up to ~44min for eMTC • Extended DRX cycles up to ~3hr for NB-IOT
  • 13. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 13 Main upper layer features for NB-IOT and eMTC UE and Network negotiate capabilities and preferences for types of NAS/core network optimizations • This may be used for core network selection • Changes in Attach procedure required There are two different data transfer optimization features agreed for NB-IOT and eMTC: • Mandatory for NB-IoT/Optional for eMTC: “CP optimization” • Enables Small data over NAS using encrypted NAS PDUs • Support for RoHC Header Compression for IP PDN connection • Architecture Change: MME, S-GW and P-GW may be combined in one entity (e.g. C-SGN) • Optional for NB-IoT and eMTC: “UP optimization” • User plane based with RAN context casheing in idle mode to enable connection suspend/resume procedures on radio/S1 interface Other optional new features • Support for non-IP data (2 flavours: non-IP PDN via P-GW, non-IP via SCEF) • Attach without PDN connectivity • SMS transfer without combined attach • Storing and usage of coverage level in MME to avoid unnecessary repetitions over the air
  • 14. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 14 EC-GSM-IoT Objectives • Long battery life: ~10 years of operation with 5 Wh battery (depending on traffic pattern and coverage needs) • Low device cost compared to GPRS/GSM devices • Extended coverage: • 164 dB MCL for 33 dBm UE, • 154 dB MCL for 23 dBm UE • Variable rates: • GMSK: ~350bps to 70kbps depending on coverage level • 8PSK: up to 240 kbps • Support for massive number of devices: at least 50.000 per cell • Improved security compared to GSM/EDGE
  • 15. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 15 EC-GSM-IoT (cont’d) Main PHY features • New logical channels designed for extended coverage • Repetitions to provide necessary robustness to support up to 164 dB MCL • Overlaid CDMA to increase cell capacity (used for EC-PDTCH and EC-PACCH) Other features • Extended DRX (up to ~52min) • Optimized system information (i.e. no inter-RAT support) • Relaxed idle mode behavior (e.g. reduced monitoring of neighbor cells) • 2G security enhancements (integrity protection, mutual authentication, mandate stronger ciphering algorithms) • NAS timer extensions to cater for very low data rate in extended coverage • Storing and usage of coverage level in SGSN to avoid unnecessary repetitions over the air
  • 16. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 16 Rel-14: EC-GSM-IoT enhancements The objective is to specify radio interface enhancements for EC-GSM-IoT, that allow • use of alternative mappings of blind physical layer transmissions for higher coverage classes of EC-PDTCH/EC- PACCH • MCL improvement targeting at least 3 dB for low power devices (i.e. 23 dBm) on all uplink channels • Support for positioning
  • 17. S m a r t S u m m i t S i n g a p o r e N o v e m b e r 2 0 1 6 © 3GPP 2012 © 3GPP 2016 17 www.3gpp.org For more Information: contact@3gpp.org Search for WIDs at http://www.3gpp.org/specifications/work-plan and http://www.3gpp.org/ftp/Information/WORK_PLAN/ (See excel sheet)