the limits of 4g and how to design a new 5g phy
TRANSCRIPT
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Vodafone Chair Mobile Communications Systems, Prof. Dr.-Ing. Dr. h.c. G. Fettweis
Gerhard P. Fettweis – Vodafone Chair Professor
CTW 2013 25th June 2013, Phuket
The Limits of 4G and How to Design a New 5G PHY
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The Team • 1 professor • 8 senior scientists/lecturers/post-docs • 32 Ph.D. students • 15+ Master students • 4 program managers • 8 start-up incubator employees • 5 secretaries • 5 lab engineers
at TU Dresden Key Facts and Figures
6/25/2013 Gerhard Fettweis
Accomplishments Scientific:
• 62 Ph.D. grads • 200+ Ms. grads • 700+ publications • 9,000+ citations • 200+ patent appl. • 85+ patent families
Project Partners
IPP Sponsors
Innovation: • 10 spin-outs • 350 engineers
Funding: • € 50M Chair • € 50M VC • € 1/3B projects
Slide 2
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The Vodafone Chair‘s Startup History
founded 1999 OnDSP™ based WLAN chip-sets 2000 SON systems 2003 Broadband Wireless HW (LTE,…)
2004 Module and reference board design
2005 MPSoC semiconductor IP 2007 Wireless audio 2008 Network performance measurement 2008 LTE Cellular Handset Chip IP 2010 Satellite Communications
2013 Assisted living 2012 Startbahn Venture Fund
6/25/2013 Gerhard Fettweis
freedelity
Slide 3
2002
2006
2006
2007
2010
2012
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Vodafone Chair Mobile Communications Systems, Prof. Dr.-Ing. Dr. h.c. G. Fettweis
5G – What Is It?
Dresden, 05 June 2013 Slide 4
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WIRELESS ROADMAP
6/25/2013 Gerhard Fettweis Slide 5
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The Outlook: The Box in 2020+
Assume 128K processors per chip 4x4 chip-stacks on board 128x chips stacked in 3D 4x boards in a box
6/25/2013 Gerhard Fettweis Slide 6
in 10x10x10 cm3 (1 liter) 109 processors! 8192 chips 105x performance of today!
HAEC Box
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TU Dresden Gerhard Fettweis Slide 7
Coverage: Cellular
1995 2000 2005 2010 2015
Short links (1m)
Cellular (100m)
GSM GPRS
HSPA
HSDPA LTE
3G R99 / EDGE
LTE Advanced
100Gb/s
10Gb/s
1Gb/s
100Mb/s
10Mb/s
1Mb/s
100Kb/s
10Kb/s
WLAN (10m) 802.11ac/ad
802.11n 802.11ag
802.11
802.11b
USB 1.0
USB 2.0
USB 3.0
UWB intention 802.15.3c
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>2020 Outlook
100Tb/s
10 Tb/s
1 Tb/s
100Gb/s
10Gb/s
1Gb/s
100Mb/s
10Mb/s
1Mb/s
100Kb/s
10Kb/s
1995 2000 2005 2010 2015 2020 2025 2030
?
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2005/4/4 – Via Della Conciliazione
6/25/2013 Gerhard Fettweis Slide 9 Source: http://www.spiegel.de/panorama/bild-889031-473266.html
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2013/3/12 – Via Della Conciliazione
6/25/2013 Gerhard Fettweis Slide 10 Source: http://www.spiegel.de/panorama/bild-889031-473242.html
Enabling Ad-Hoc Mobile “Free-Viewpoint Video”
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Watch Out !
6/25/2013 Gerhard Fettweis Slide 11
?
http://static.o2.co.uk/www/img/iphone-device/4_phones.png http://www.iclarified.com/images/news/28607/111946/111946-1280.png
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THE TACTILE INTERNET
6/25/2013 Gerhard Fettweis Slide 12
G. Fettweis A 5G Wireless Communications Vision , 2012-12-15, Microwave Journal www.microwav ejournal.com/articles/print/18751-a-5g-wireless-communications-v ision
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Human Reaction – How Fast is Fast?
6/25/2013 Gerhard Fettweis Slide 13
http://i.cdn.turner.com/si/multimedia/photo_gallery/1108/famous.false.starts/images/01.bolt.jpg
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Physiology and Psychology
25.06.2013 Gerhard Fettweis Slide 14
10ms 100ms 1 sec 1ms
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Physiology and Psychology
25.06.2013 Gerhard Fettweis Slide 15
10ms 100ms 1 sec 1ms
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Gaming…
http://popular-pics.com/Cool_World_Record_LAN_Event_Computer_Pictures__5 http://gametaffy.com/imho-the-lan-party/ 6/25/2013 Gerhard Fettweis Slide 16
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Professional Audio
http://www.germanpulse.com/wp-content/uploads/2013/02/HerbertGroenemeyerGuitarPhotoByAliKepenek.jpg
6/25/2013 Gerhard Fettweis Slide 17
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Remote Heli
http://ds_product_photos.s3.amazonaws.com/large/9756.jpg
6/25/2013 Gerhard Fettweis Slide 18
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FITS – Future Intelligent Things and Systems Usage Scenario Autonomous Vehicles
Today’s urban Traffic Future Vision
6/25/2013 Gerhard Fettweis Slide 19
Example: Urban Traffic at Arc de Triomphe
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Remote Driving 2.0
6/25/2013 Gerhard Fettweis Slide 20
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Platooning 2.0
6/25/2013 Gerhard Fettweis Slide 21
1ms examples of today’s cars: ESP, ABS
Tomorrow: platooned ESP & ABS
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Traffic Control
TU Dresden Gerhard Fettweis Slide 22
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Wireless Airbags
Crash to impact: 10-15ms Crash sensor Trigger Air bag
6/25/2013 Gerhard Fettweis Slide 23
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Exoskeletons – “Power Limbs”
http://news.cnet.com/8301-17938_105-57532729-1/nasa-exoskeleton-suit-is-half-way-to-iron-man/
6/25/2013 Gerhard Fettweis Slide 24
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Health / Physiotherapy
6/25/2013 Gerhard Fettweis Slide 25
http://www.medindia.net/patients/patientinfo/images/physiotherapy.jpg
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Manufacturing
http://www.augsburg.de/fileadmin/www/dat/fotoservice/wirtschaft/kuka/kuka_1.jpg
6/25/2013 Gerhard Fettweis Slide 28
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Sports
http://www.spox.com/de/sport/olympia/0807/Artikel/Terminplaene/zeitplan-kanu.html
6/25/2013 Gerhard Fettweis Slide 29
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Virtual Overlay
http://googlesystem.blogspot.de/2009/12/google-goggles-mobile-visual-search.html
6/25/2013 Gerhard Fettweis Slide 30
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Smart Grid
10km – 1ms http://smartgrid.epri.com/Demo.aspx 6/25/2013 Gerhard Fettweis Slide 32
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Paradigm of 5G Cellular: Control
6/25/2013 Gerhard Fettweis Slide 33
Traffic / Sports / Education / Health&Care / Manufacturing / Games / Smart Grid…
1ms
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router
SmartRAN
6/25/2013 Gerhard Fettweis Slide 34
Distributed Compute Within
Distributed Cloud
Steering & Ctrl Center Data Center
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Content Communications
Steering & Control
Communications
6/25/2013 Gerhard Fettweis Slide 35
Health & Care Traffic Sports Education Manufacturing Games Smart Grid …
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For more on “Tactile Internet”
Youtube: “Tactile Internet Gerhard” http://www.youtube.com/watch?v=_VXEPzQgpok Microwave Journal Dec/2012 feature article on 5G
6/25/2013 Gerhard Fettweis Slide 36
G. Fettweis A 5G Wireless Communications Vision , 2012-12-15, Microwave Journal www.microwavejournal.com/articles/print/18751-a-5g-wireless-communications-vision
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Sensor/ Actuator
Embedded Computing Modem Modem
Hosted Computing (decider)
Network Config.
Manager (SON)
Terminal
Air Interface
Base Station
100 µs
Σ = 0.3 ms
Σ = 0.2 ms
Σ = 0.5 ms Latency Goals:
Software Ecosystem
10ms 1ms Impact: 32µs Packet
100 µs
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WHICH MODULATION?
6/25/2013 Gerhard Fettweis Slide 38
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Background
Speed of light 𝑐 = 300𝑘𝑘/𝑘𝑚
GSM: one GMSK symbol
3.7𝜇𝑚 ≜ 1100𝑘 3G: one DS-CDMA chip
0.26𝜇𝑚 ≜ 78𝑘 LTE: one OFDM symbol
70𝜇𝑚 ≜ 21𝑘𝑘
6/25/2013 Gerhard Fettweis Slide 39
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Time-Frequency Grid of OFDM
Dresden, 05 June 2013 Gerhard Fettweis Slide 40
frequency
time
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OFDMA
Dresden, 05 June 2013 Gerhard Fettweis Slide 41
frequency
time
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OFDMA Highlights
Variable channel bandwidth
Scheduling & RRM
Low complexity in signal processing
6/25/2013 Gerhard Fettweis Slide 42
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Limitations of OFDMA
Frequency synchronous operation and limits on phase noise
Spectrum shaping: spectrum mask, spectrum aggregation, and ACLR
Symbol design limitations: Subcarrier spacing / symbol duration
ASA (Authorized Shared Access): Carrier sensing
6/25/2013 Gerhard Fettweis Slide 43
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Packet/Symbol Duration for 5G
∆𝑓𝑠𝑠𝑠 = 1/𝑇𝑠𝑠𝑠𝑠𝑠𝑠 A packet 𝑇𝑝𝑝𝑝𝑝𝑝𝑝 (TTI) of max. 32µs and at least 10 symbols:
∆𝑓𝑠𝑠𝑠 ≥10
𝑇𝑝𝑝𝑝𝑝𝑝𝑝=
1𝑇𝑠𝑠𝑠𝑠𝑠𝑠
= 312.5𝑘𝑘𝑘
6/25/2013 Gerhard Fettweis Slide 44
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OFDM: Phase Noise Impairing Capacity
TU Dresden Gerhard Fettweis Slide 45
∆fsub sub-carrier spacing
∆𝑓3𝑑𝑑/∆𝑓𝑠𝑠𝑠
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Doppler Spread (1)
𝐵𝑑 ≅ 2𝑣𝑘𝑘ℎ
𝑓𝑝𝐺𝑘𝑘
http://upload.wikimedia.org/wikipedia/commons/thumb/ c/c9/Dopplereffectsourcemovingrightatmach0.7.gif/220px
-Dopplereffectsourcemovingrightatmach0.7.gif
4GHz carrier and 250km/h 2kHz Doppler Spread!
∆𝑓𝑠𝑠𝑠≥ 200𝑘𝑘𝑘
6/25/2013 Gerhard Fettweis Slide 46
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Doppler Spread (2)
2kHz Doppler Spread: approx. 500µs coherence time CSI update period of 50µs sensible = 𝑇𝑝𝑝𝑝𝑝𝑝𝑝 (TTI) duration
6/25/2013 Gerhard Fettweis Slide 47
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Delay Spread & Coherence Bandwidth
coherence bandwidth ≥ 10x subcarrier spacing 𝐵𝑝 ≥ 10 ∗ ∆𝑓𝑠𝑠𝑠
Assuming 1km “delay spread”
𝑓𝑠𝑠𝑠 ≤𝐵𝑝10
=1
10 ∗ 3𝜇𝑚= 33𝑘𝑘𝑘
6/25/2013 Gerhard Fettweis Slide 48
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Summarizing Multicarrier for 5G
Doppler Spread ∆𝑓𝑠𝑠𝑠≥ 200𝑘𝑘𝑘
Coherence Bandwidth ∆𝑓𝑠𝑠𝑠≤ 33𝑘𝑘𝑘
Coherence Time 𝑇𝑝𝑝𝑝𝑝𝑝𝑝 ≤ 50𝜇𝑚 𝑇𝑠𝑠𝑠𝑠𝑠𝑠 ≤ 5𝜇𝑚 ∆𝑓𝑠𝑠𝑠 ≥ 200𝑘𝑘𝑘
Latency ∆𝑓𝑠𝑠𝑠 ≥ 312.5𝑘𝑘𝑘 𝑇𝑝𝑝𝑝𝑝𝑝𝑝 ≤ 32𝜇𝑚
ISI on subcarriers
6/25/2013 Gerhard Fettweis Slide 50
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2-Stage Sphere-Detector for SC-FDMA Transmission over MIMO ISI Channel
Correlation between antennas makes performance gain more pronounced Scenario: 4x4 MIMO, CQI 10 (64QAM, 0.455 code rate)
TU Dresden, Slide 51
Uncorrelated channel Channel Correlation 0.3
M. Jar, E. Matus, E. Pérez Adeva, E. Ohlmer and G. Fettweis Two-Stage Detector for SC-FDMA Transmission over MIMO ISI Channels, in Pro.of 9th International Symposium on Wireless Communication Systems (ISWCS'12), Paris, France, 28.8. - 31.8.2012
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The „Tommy“ System-on-Chip
Tommy MPSoC
NoCRouter
FEC
AD
-P
LL
SphereDetector
AD
-P
LL
Low-Swing Serial on-Chip
Testlink
All-D
igital P
LLA
ll-Digital
PLL
Low-Swing Serial
on-chip Testlink
All-Digital PLL
AD-PLLAD-PLL
All-Digital PLL
FPGA-IF
NoCRouter
Low-Swing Serial on-Chip
Testlink
8 Gbit/s LVDS Interface @ 500 MHz
Core supply voltage range: 1.1V - 1.35V
Individual all-digital PLLs Frequency range: 83MHz - 667MHz
Packet- switched NoC
TU Dresden Slide 52
• 7.03 mm² die with 17 million transistors (65nm TSMC LP process) • GALS SoC Approach • 300Mbps @ 40mW Detection & 370mW Decoding
: M. Winter, S. Kunze, E. Pérez Adeva, B. Mennenga, E. Matus, G. Fettweis, H. Eisenreich, G. Ellguth, S. Höppner, S. Scholze, R. Schüffny and T. Kobori. „A 335Mb/s 3.9mm² 65nm CMOS Flexible MIMO Detection-Decoding Engine Achieving 4G Wireless Data Rates.“ IEEE ISSCC 2012
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5G Modulation Requirements
Multi-Carrier
filtered subcarriers
6/25/2013 Gerhard Fettweis Slide 53
Carrier sensing (ASA) Low out-of-band radiation (ACLR) Non synchronous usage (time/frequency multiple access)
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OFDM(A)
6/25/2013 Gerhard Fettweis Slide 54
Frequency
PS
D
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Vodafone Chair Mobile Communications Systems, Prof. Dr.-Ing. Dr. h.c. G. Fettweis
Overview of Multi-Carrier Schemes
Dresden, 05 June 2013 Slide 55
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Vodafone Chair Mobile Communications Systems, Prof. Dr.-Ing. Dr. h.c. G. Fettweis
GFDM Basic Idea Generalized Frequency Division Multiplexing
Dresden, 05 June 2013 Slide 56
G. Fettweis, M. Krondorf and S. Bittner GFDM - Generalized Frequency Division Multiplexing in Proceedings of the 69th IEEE VTC Spring'09, Barcelona, Spain, 26.4. - 29.4.2009 I. Gaspar, N. Michailow, A. Navarro, E. Ohlmer, S. Krone, G. Fettweis, “Low Complexity GFDM Receiver Based On Sparse Frequency Domain Processing,” In Proc. of VTC Spring 2013, Dresden.
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Vodafone Chair Mobile Communications Systems, Prof. Dr.-Ing. Dr. h.c. G. Fettweis
Multi-carrier scheme
Block based approach
Circular signal structure (time and frequency)
Pulse shaped sub-carriers
Overlapping sub-carriers
GFDM Signal Properties
Dresden, 05 June 2013 Slide 59
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Spectral Shaping: E.g. RC
6/25/2013 Gerhard Fettweis Slide 61
0
5
10
15
05
10
1520
-12
-10
-8
-6
-4
-2
0
Symbols
RC pulse
Sub-Carriers
-10
-9
-8
-7
-6
-5
-4
-3
-2
-1
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Transmitter Descriptions
6/25/2013 Gerhard Fettweis Slide 62
Approach 1: Superposition Approach 2: Modulation matrix Approach3: Fourier transform
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Vodafone Chair Mobile Communications Systems, Prof. Dr.-Ing. Dr. h.c. G. Fettweis
Transmitter Description
QAM IDFTNM
S/P DFTM
sub-carrier filter ov
erla
pP/
S
Dresden, 05 June 2013 Slide 63
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Vodafone Chair Mobile Communications Systems, Prof. Dr.-Ing. Dr. h.c. G. Fettweis
Receiver Description
DFTNM
detectorP/Ssub-carrier filterw
indo
wS/
P IDFTM
Dresden, 05 June 2013 Slide 65
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Vodafone Chair Mobile Communications Systems, Prof. Dr.-Ing. Dr. h.c. G. Fettweis
• Pulse shaping filter is sparse in frequency domain
• Convolution becomes multiplication
• Decimation becomes superposition
Low Complexity Transceiver
Performing signal processing in frequency domain allows low complexity version of transmitter and receiver.
Dresden, 05 June 2013 Slide 66
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Vodafone Chair Mobile Communications Systems, Prof. Dr.-Ing. Dr. h.c. G. Fettweis
Per sub-carrier successive interference cancellation (IC) can be performed in frequency domain.
Low Complexity Transceiver (2)
Receiver with IC
DFTNM
detectorP/Ssub-carrier filterw
indo
wS/
P IDFTM
IC
-1
Dresden, 05 June 2013 Slide 67
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Vodafone Chair Mobile Communications Systems, Prof. Dr.-Ing. Dr. h.c. G. Fettweis
Complexity Analysis
Dresden, 05 June 2013 Slide 68
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Vodafone Chair Mobile Communications Systems, Prof. Dr.-Ing. Dr. h.c. G. Fettweis
ZF-FDE Bit Error Rate Performance
64QAM, RRC, a=0.2 64QAM, RRC, a=0.4 256QAM, RRC, a=0.4 Rayleigh multipath
Dresden, 05 June 2013 Slide 71
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CONCLUSIONS
6/25/2013 Gerhard Fettweis Slide 73
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The Tactile Internet Is Arriving With 5G
Modulation OFDMA GFDM Spectrum Shaping
spectrum mask, spectrum aggregation, and ACLR
Time-frequency spectrum engineering
Synchronous Operation
Requires frequency synchronous OFDMA and low phase noise
Robust against frequency offsets
Symbol Design
Physical limitations
FDE per subcarrier allows for flexibility
6/25/2013 Gerhard Fettweis Slide 74
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Selected Publications (GFDM System and Sensing)
6/25/2013 Gerhard Fettweis Slide 75
1. G. Fettweis, M. Krondorf, and S. Bittner, “GFDM - Generalized Frequency Division Multiplexing,” in VTC Fall 2009, Barcelona, Spain.
2. I. Gaspar, N. Michailow, A. Navarro, E. Ohlmer, S. Krone, G. Fettweis,“Low Complexity GFDM Receiver Based On Sparse Frequency Domain Processing,” In Proc. of VTC Spring 2013, Dresden 2013.
3. R. Datta and G. Fettweis ‘‘Improved CR Spectrum Sensing Performance with Lower ACLR GFDM Signals‘‘ in Proceedings of IEICE'12, Fukuoka, Japan.
4. R. Datta, N. Michailow, M. Lentmaier, and G. Fettweis, “GFDM Interference Cancellation for Flexible Cognitive Radio PHY Design,” in VTC Fall 2012, Quebec, Canada.
5. R. Datta, D. Panaitopol and G. Fettweis ‘’Analysis of Cyclostationary GFDM Signal Properties in Flexible Cognitive Radio’’ in Proceedings of the ISCIT'12, Gold Coast, Australia.
6. R. Datta, N. Michailow, S. Krone, M. Lentmaier and G. Fettweis ‘‘Generalized Frequency Division Multiplexing in Cognitive Radio‘‘ in Proceedings of EUSIPCO'12, Bucharest, Romania.
7. R. Datta, K. Arshad and G. Fettweis ‘‘Analysis of Spectrum Sensing Characteristics for Cognitive Radio GFDM Signal‘‘ in Proceedings of IWCMC'12, Limassol, Cyprus.
8. D. Panaitopol, R. Datta and G. Fettweis ‘’Cyclostationary Detection of Cognitive Radio Systems using GFDM Modulation’’ in Proceedings of WCNC'12, Paris, France.
9. N. Michailow, M. Lentmaier, P. Rost, and G. Fettweis, “Integration of a GFDM Secondary System in an OFDM Primary System,” in Future Network Summit, 2011, Warshaw, Poland.
10. N. Michailow, I. Gaspar, S. Krone, M. Lentmaier and G. Fettweis ‘‘Generalized Frequency Division Multiplexing: An Alternative Multi-Carrier Technique for Next Generation Cellular Systems‘‘ in Proceedings of ISWCS'12, Paris, France.
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Selected Publications (GFDM System and Sensing)
6/25/2013 Gerhard Fettweis Slide 76
11. V. Berg, Z. Kollar, R. Datta, P. Horvath, D. Noguet and G. Fettweis, ‘‘Low ACLR communication systems for TVWS operation‘‘ in Proceedings of FuNeMs(FNMS'12), Berlin, Germany 2012.
12. R. Datta, G. Fettweis, Y. Futatsugi and M. Ariyoshi‚‘‘Comparative Analysis on Interference Suppressive Transmission Schemes for White Space Radio Access‘‘ in Proceedings of the IEEE Vehicular Technology Conference (VTC Spring'12), Yokohama, Japan 2012.
13. R. Datta, G. Fettweis, Z. Kollar and P. Horvath ‘‘FBMC and GFDM Interference Cancellation Schemes for Flexible Digital Radio PHY Design‘‘ in Proceedings of the 14th EUROMICRO Conference, Oulu, Finland, 2011.
14. R. Datta, G. Fettweis et.al‚‘‘Flexible Multicarrier PHY Design for Cognitive Radio in White Space‘‘ in Proceedings of CrownCom'11, Osaka, Japan, 2011.
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Vodafone Chair Mobile Communications Systems, Prof. Dr.-Ing. Dr. h.c. G. Fettweis
Thanks to Vodafone for 18 years of continued support ! www.vodafone-chair.org
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