Maurice Bellanger, Didier Le Ruyet , Daniel Roviras, Michel Terré, … · 2011-05-12 · Filter...
Transcript of Maurice Bellanger, Didier Le Ruyet , Daniel Roviras, Michel Terré, … · 2011-05-12 · Filter...
Filter bank based multicarrier for cognitive radio
presentation GDR-ISIS 06/05/2011
Filter bank based multicarrier for cognitive radio
Maurice Bellanger, Didier Le Ruyet , Daniel Roviras, Michel Terré,Haijian Zhang, Yahia Medjahdi
Conservatoire National des Arts et MétiersParis, France.
Outline
� FBMC system.
� PHYDYAS project overview� Interference and spectrum efficiency
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� Interference and spectrum efficiency� Spectrum Sensing� Ressource allocation for CR
� Conclusion
FBMC system
OFDM FBMC
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Advantage:• FBMC time-frequency response is well localized.• No need to insert Cyclic Prefix.
Disadvantage:• Higher implementation complexity due to the PPN
-30
-20
-10
0N
orm
aliz
ed P
SD
(dB
)
OFDM
Filter Bank
FBMC system
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-4 -3 -2 -1 0 1 2 3 4-100
-90
-80
-70
-60
-50
-40
Normalized frequency
Nor
mal
ized
PS
D (
dB)
FBMC system
• In FBMC, each subchannel overlaps only with its neighbours.
• We can separate two bands only by deactivating one subcarrier.
• In FBMC, we use OQAM modulation.
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n-3 n-2 n-1 n n-+1 n+2 n+3
k-1 0.043j -0.125 -0.206j 0.239 0.206j -0.125 -0.043j
k 0.067 0 0.564 1 0.564 0 0.067
k+1 -0.043j -0.125 0.206j 0.239 -0.206j -0.125 0.043j
lkc PHYDYAS REFERENCE COEFFICIENTS
2T
FBMC system
• In FBMC, each subchannel overlaps only with its neighbours.
• We can separate two bands only by deactivating one subcarrier.
• In FBMC, we use OQAM modulation.
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n-3 n-2 n-1 n n-+1 n+2 n+3
k-1 R I R I R I R
k I R I R I R I
k+1 R I R I R I R
1 2 1
1 (2 1)
( ) ( ) ; , 0K
i lk i ll k K
u n c d n k k l−
+=− =− −
= − ≠∑ ∑
• The coefficients represent the system impulse response.
lkc mapping
• At the receiver side, we have:
( ) ( ) ( )i i iy n d n ju n= +
2T
PHYDYAS project
PHYDYAS : Physical layer for dynamic spectrum access and cognitive radio
• Duration 3 years ( sept 2007 – dec 2010)
• List of the 13 members– Conservatoire National des Arts et Métiers (CNAM) , France– Technishe Universität München ( TUM ) , Germany– Tampere University of Technology (TUT), Finland– Université Catholique de Louvain (UCL), Belgium– SINTEF - Trondheim, Norway
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– SINTEF - Trondheim, Norway – Centre Tecnologic de Telecomunicacions de Catalunya (CTTC) , Spain– Research Academic Computer Technology Institute (RA-CTI), Greece– University of Napoli Federico II (UNINA), Italy– CEA-LETI Grenoble, France– Agilent-Belgium, Belgium– Alcatel-Lucent Swindon, UK– Alcatel-Lucent Deutschland, Germany– COMSIS-Paris, France
– SIGNAL PROCESSING CLUSTER• WP2 – fast scalable synchronization and initialization, • WP3 – transmit and receive processing (single antenna)• WP4 – MIMO transmit and receive processing• WP5– prototype filter and filter bank structure
– COMMUNICATION CLUSTER• WP6 – dynamic access and cross layer aspects• WP7 – backward compatibility with OFDM
PHYDYAS project
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• WP7 – backward compatibility with OFDM• WP8 – radio scene spectrum analysis and cognitive radio
– DEMONSTRATOR CLUSTER• WP9 – includes the development and integration of a simulation package, the implementation
of a laboratory setup with real-time channel emulation
cognitive radio
Objectif : permettre une meilleure utilisation du spectre en autorisant un accès dynamique (opportuniste)
• Aim : improve the exploitation of the spectrum thanks to dynamic access (opportunistic)
• Public space (open sharing model)– users compete for the resource– high spectral density– protection of other users
• White space in a licensed band (spectrum overlay)
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Objectif : permettre une meilleure utilisation du spectre en autorisant un accès dynamique (opportuniste)• White space in a licensed band (spectrum overlay)
– protection of primary users– priority of primary users
• Centralized spectrum access– cognitive pilot channel (primary+secondary users / databases)– cognitive control channel (between CRS-coexistence of
secondary systems / collaborative)– service discovery using a geolocation data base ( FCC 10-174 doc. , rules
for using TV white spaces)
cognitive radio
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• Decentralized dynamic spectrum access (DDSA)– local decision based on spectrum sensing– no coordination with other systems
=> opportunistic unsynchronized networks
spectrum sensing/monitoring
opportunisticprotocol
user interface
adaptive transceiver
spectral resources
Opportunistic terminal
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sensing/monitoring transceiver
physical layer
• Detection of an unoccupied frequency band (spectrum sensing and monitoring)• Local access decision and building of the capacities requested by the users• Capability to handle unsynchronized users with minimal loss in spectral use • Guaranteed protection of other users (coexistence)• Exploitation of fragmented spectrum (broadband)
Interference Calculation
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Hypothesis�Frequency reuse 1�Timing offset between the Cell B and the user τ
Interference Calculation
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Determination of the set of interfering slots associated to the corresponding interference power for OFDM and FBMC systems
Interference Calculation
CP-OFDM
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Interference Calculation
CP-OFDM
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Interference Calculation
FBMC
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FBMC
Interference Calculation
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The number of interfering slots is reduced in FBMC with respect to OFDM.
The interference tables can easily be used for the derivation of the mean interference power due to a set of active slots in the interfering cell
Interference Calculation
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Y. Medjahdi, M. Terré, D. Le Ruyet, D. Roviras, J. A. Nossek and L. Baltar, "Inter-Cell Interference Analysis for OFDM/FBMC Systems", IEEE Signal Processing Workshop for
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Interference Analysis for OFDM/FBMC Systems", IEEE Signal Processing Workshop for Communications SPAWC 2009 pp. , Perugia, Italie, june 2009.
Y. Medjahdi, M. Terré, D. Le Ruyet, D. Roviras, Ali Dziri, "Performance Analysis in the Downlink of Asynchronous OFDM/FBMC based Multi-cellular Networks« IEEE transactions on Vehicular Technology, 2011.
Y. Medjahdi, M. Terré, D. Le Ruyet, D. Roviras,, "The Impact of Timing Synchronization Errors on the Performance of OFDM/FBMC Systems", IEEE international Conference on Communication , Kyoto, Japan, June 2011
Spectrum efficiency comparison
Cognitive radio network with one primary system and one secondary cell
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Spectrum efficiency comparison
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Spectrum efficiency comparison
• distribution of the primary users and the spectrum holes (802.16) • power allocation using the gradient projection method (GPM)
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Spectrum efficiency comparison
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Spectrum sensing/monitoring
•Different spectrum sensing methods have been explored (cyclostationary method, using candidate spectral estimation, ...)• Within Phydyas, special focus on spectrum monitoring, i.e, detecting rapidly reappearing primary users (PUs) during on-going secondary user (SU) transmissions.
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Spectrum sensing/monitoring
• FBMC enables spectrally efficient utilization of quiet sensing subbands in SU transmissions. • Frequency-domain sensing subband approach is proposed
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Spectrum sensing
10-1
100
OFDMFBMCPU1
• The Analysis Filter Bank of an FBMC system provides high-resolution, high dynamic range spectrum analysis, which can be utilized for very flexible, multiband spectrum sensing for different PU waveforms
Pd versus SNR level for Pfa=5%
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-1 -0.5 0 0.5 110
-5
10-4
10-3
10-2
10-1
Normalized frequency [ω/π]
PS
D
PU3
PU2
SHSH
Spectrum Monitoring
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Ressource allocation for non cooperative multicell
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• 2 approaches :• Heuristic resource allocation approach (good neighbor) decentralized dynamic spectrum access strategies (Kusminskiy)• Game theory approach
• Game theory approach
Ressource allocation for non cooperative multicell
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Haijian Zhang, Didier Le Ruyet, Michel Terré, " S ignal Detection for OFDM-OQAM System Using Cyclostationary Signatures " in IEEE I nternational Symposium on Personal, Indoor and Mobile Radio Communications PI MRC 2008
Haijian Zhang, Didier Le Ruyet, Daniel Roviras, " Spectral Efficiency Comparison of OFDM/FBMC for Uplink Cognitive Radio Networks",EURA SIP Journal on Advances in Signal Processing, vol. 2010, Article ID 621808, 14 pages, doi:10.1155/2010/621808, 2010
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Signal Processing, vol. 2010, Article ID 621808, 14 pages, doi:10.1155/2010/621808, 2010
Haijian Zhang, Didier Le Ruyet, Michel Terré, "Sp ectral Correlation of Multicarrier Modulated Signals and its Application for Signal De tection", Eurasip Journal on Advances in Signal Processing, Volume 2010, Article ID 794246, 14 pages, 2010
special issue on filter bank for wireless communication , EURASIP journal on advances in signal processing, 2010
http://www.ict-phydyas.org
Conclusion
• Filter bank based multicarriers system is a good candidate for cognitive radio• Multiband spectrum sensing is available thanks to the filter bank structure • Simplified ressource allocation solutions due to the absence of interference • Future works :
– Demonstration of the proposed system in real conditions – Contribution to standardization– Research on multiband spectrum sensing
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– Theoretical/practical research on ressource allocation for non cooperative multicell
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