Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with...
-
Upload
jade-horton -
Category
Documents
-
view
213 -
download
0
Transcript of Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with...
![Page 1: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/1.jpg)
Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology
Weiwei Wang a, Zihua Guo b, Jun Cai c, Xuemin(Sherman) Shen d, Changjia Chen a
a School of Electronics and Information Engineering, Beijing Jiaotong University, Beijing, China
b Lenovo Cooperate Research, Beijing, China
c Department of Electrical and Computer Engineering, University of Manitoba, Winnipeg, Manitoba, Canada
d Department of Electrical and Computer Engineering, University of Waterloo, Waterloo, Ontario, Canada
to appear in < Computer Communications 2009 >
![Page 2: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/2.jpg)
Outline
• Introduction
• Motivation
• Frequency Reuse Schemes– IBFRS
– DFPP
– SR
• Simulation
• Conclusion
![Page 3: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/3.jpg)
Introduction
• Relay-related function is being standardized as the extension to the basic standards, such as IEEE 802.16j.
• There are generally two advantages brought by Relay Stations in WiMAX :– to overcome the coverage hole of BS and provide ubiquitous wirele
ss services cost-efficiently
– to improve network throughput due to possible reuse of radio resources
• In this paper, throughput performance of the access links (i.e., BS to MS and RS to MS) is analyzed for the two-hop IEEE 802.16j wireless relay networks with asymmetrical topology.
![Page 4: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/4.jpg)
Introduction
• RS in IEEE 802.16j– Transparent RS
– Non-transparent RS
RS
MS
BS
Transparent RS
DL Access Zone
(BS to MS or RS)
Optional transparent Zone
(Silent or BS transmitting)
UL Access Zone(MS to BS)
UL Relay Zone(BS receiving)
DL Access Zone
(RS receiving)
Optional transparent Zone
(RS to MS or RS)
UL Access Zone(MS to RS)
UL Relay Zone(RS to BS or RS to
RS)
RS
BS
![Page 5: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/5.jpg)
Introduction
• RS in IEEE 802.16j– Transparent RS
– Non-transparent RS
DL Access Zone
(BS to MS)
DL Relay Zone(BS to RS)
UL Access Zone(MS to BS)
UL Relay Zone(BS receiving)
DL Access Zone
(RS to MS)
DL Relay Zone(RS to RS or RS
receiving)
UL Access Zone(MS to RS)
UL Relay Zone(RS to BS or RS to
RS)
RS
BS
Non-transparent RS
BS
MS
RS
Coverage Hole
Shadowing Area
![Page 6: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/6.jpg)
Introduction – Non-transparent RS- Frequency reuse -
MS in BS’s Range
MS in RS’s Range
![Page 7: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/7.jpg)
Motivation
• RS in IEEE 802.16j– Transparent RS
– Non-transparent RS
DL Access Zone
(BS to MS)
DL Relay Zone(BS to RS)
UL Access Zone(MS to BS)
UL Relay Zone(BS receiving)
DL Access Zone
(RS to MS)
DL Relay Zone(RS to RS or RS
receiving)
UL Access Zone(MS to RS)
UL Relay Zone(RS to BS or RS to
RS)
RS
BS
System Bandwidth==
f
BS
Isolation Band
RS Cluster
Reuse-Area
![Page 8: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/8.jpg)
Frequency Reuse Scheme – IBFRS - Isolation Band based Frequency Reuse Scheme -
• S : the total acreage of the cell
• ABS : the area served by the BS with the acreage of SBS
• ARSc : the area served by the RS cluster with the acreage of SRSc
• AnrBS : the isolation band with the acre
age of SnrBS
• ArBS : the area served by the BS but ou
t of the isolation band, which has an acreage of Sr
BS
BS
Isolation Band
RS Cluster
![Page 9: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/9.jpg)
Frequency Reuse Scheme – IBFRS - Isolation Band based Frequency Reuse Scheme -
• S : the total acreage of the cell
• ABS : the area served by the BS with the acreage of SBS
• ARSc : the area served by the RS cluster with the acreage of SRSc
• AnrBS : the isolation band with the acre
age of SnrBS
• ArBS : the area served by the BS but ou
t of the isolation band, which has an acreage of Sr
BS
BS
Isolation Band
RS Cluster
![Page 10: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/10.jpg)
Frequency Reuse Scheme – IBFRS - Isolation Band based Frequency Reuse Scheme -
• S : the total acreage of the cell
• ABS : the area served by the BS with the acreage of SBS
• ARSc : the area served by the RS cluster with the acreage of SRSc
• AnrBS : the isolation band with the acre
age of SnrBS
• ArBS : the area served by the BS but ou
t of the isolation band, which has an acreage of Sr
BS
BS
Isolation Band
RS Cluster
![Page 11: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/11.jpg)
Frequency Reuse Scheme – IBFRS - Isolation Band based Frequency Reuse Scheme -
• S : the total acreage of the cell
• ABS : the area served by the BS with the acreage of SBS
• ARSc : the area served by the RS cluster with the acreage of SRSc
• AnrBS : the isolation band with the acre
age of SnrBS
• ArBS : the area served by the BS but ou
t of the isolation band, which has an acreage of Sr
BS
BS
Isolation Band
RS Cluster
not Reuse-Area
![Page 12: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/12.jpg)
Frequency Reuse Scheme – IBFRS - Isolation Band based Frequency Reuse Scheme -
• S : the total acreage of the cell
• ABS : the area served by the BS with the acreage of SBS
• ARSc : the area served by the RS cluster with the acreage of SRSc
• AnrBS : the isolation band with the acre
age of SnrBS
• ArBS : the area served by the BS but ou
t of the isolation band, which has an acreage of Sr
BS
BS
Isolation Band
RS Cluster
Reuse-Area
![Page 13: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/13.jpg)
Frequency Reuse Scheme – IBFRS - Isolation Band based Frequency Reuse Scheme -
• ABS : the area served by the BS with the acreage of SBS
• AnrBS : the isolation band with the acre
age of SnrBS
• ArBS : the area served by the BS but ou
t of the isolation band, which has an acreage of Sr
BS
BSnrBS
rBS SSS
not Reuse-Area
Reuse-Area
![Page 14: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/14.jpg)
Frequency Reuse Scheme – IBFRS - Isolation Band based Frequency Reuse Scheme -
• B : system bandwidth
• CBS : the spectrum efficiency of ABS when no frequency reuse between the BS and the RS cluster (bit/s/Hz)
• CRSc : the spectrum efficiency of RS cluster (bit/s/Hz)
• Assume the users are uniformly distributed in ABS.
![Page 15: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/15.jpg)
Frequency Reuse Scheme – IBFRS - Isolation Band based Frequency Reuse Scheme -
• Ө : [0,1] be the decrease of the spectrum efficiency of ArBS after
the RSs reuse the frequency from the reuse area.
• The throughput of ABS, denoted as TBS, is
• The throughput of ARSc, denoted as TRSc, is
)1()()(
BSBS
rBS
BSBS
nrBS
BS CBS
SCB
S
ST
RScBS
rBS
RSc CBS
ST
)( not Reuse-Area
Reuse-Area
System Bandwidth==
fBS
![Page 16: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/16.jpg)
Frequency Reuse Scheme – IBFRS - Isolation Band based Frequency Reuse Scheme -
)1()()()(
BSBS
rBS
BSBS
nrBS
RScBS
rBS
BSRSc CBS
SCB
S
SCB
S
STTT
BS
BS
rBS
BSBS
rBS
BSBS
nrBS
RScBS
rBS CB
S
SCB
S
SCB
S
SCB
S
S )()()()(
)()(
BSRScBS
rBS
BS CCBS
SBC
BSnrBS
rBS SSS
)}()(
{maxarg]1,0[
BSRScBS
rBS
BSopt CCBS
SBC
BS
Isolation Band
RS Cluster
![Page 17: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/17.jpg)
Frequency Reuse Scheme – IBFRS - Isolation Band based Frequency Reuse Scheme -
• Assume a location , in ABS of the cell 0
• The SINR at is given as :
• IBS is the set of the interference sources to
• is the transmitting power of BS in cell d
• is the path loss from BS in cell d
• is the shadowing from BS in cell d
• is the value of the noise in cell 0
)0()()()(
)0()0()0(
)0(
BSm
BSm
BSm
BSIm
BSBSBSx XLP
XLP
BS
BS
)0(BSx
)0(BSx
)0(BSx
)(dBSP
)(dBSL
)(dBSX
)0(BS
![Page 18: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/18.jpg)
Frequency Reuse Scheme – IBFRS - Isolation Band based Frequency Reuse Scheme -
• can be approximated by a lognormal variable with– mean
– standard variance
))(
)()(log10(1)()(
)0(
)0(10
)0()0(
BS
BSxx x
xQPF
BSBS
)0(BSx
)( )0(BSx
)( )0(BSx
dZxQ Z
x)exp()( 22
1 2
C.D.F.
![Page 19: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/19.jpg)
Frequency Reuse Scheme – DFPP - Dynamic Frequency Power Partition scheme -
• The frequency of each RS serving area is divided into two parts– Primary frequency : orthogonal among adjacent RSs and is transmi
tted by the high power level
– Secondary frequency : is transmitted by the low power level
PF1
PF3
PF2
PF2
PF1
PF2
PF1
SF…
System Bandwidth
==
f
PFk
…PF2
PF1
RS Cluster
![Page 20: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/20.jpg)
Frequency Reuse Scheme – SF - Selective Reuse scheme -
• Due to the long distance, the sub-channel used by user A may be reused by the RS in the reuse group 2.
![Page 21: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/21.jpg)
Simulation
• Matlab– Carrier frequency : 2.5GHz– System bandwidth : 10MHz– Number of sub-channels : 30– Number of sub-carriers in a sub-channel : 24– BS cell radius : 1Km– BS TX Power : 38dBm(high) ; 33dBm(low)– BS pathloss : 138.6+34.79log10(d)– RS cell radius : 0.1Km– RS TX Power : 5dBm(high) ; 1dBm(low)– RS pathloss : 143.69+37.2log10(d)– Shadowing : mean (0dB) and standard variance (8dB)– Modulation and coding scheme : as the definition in IEEE 802.16e
![Page 22: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/22.jpg)
Simulationnot Reuse-Area
Reuse-Area
BS
![Page 23: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/23.jpg)
Simulation
Tradition : no frequency reuse each user is allocated one sub-channel
![Page 24: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/24.jpg)
Simulation
Tradition : no frequency reuse each user is allocated one sub-channel
![Page 25: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/25.jpg)
Simulation
Tradition : no frequency reuse each user is allocated one sub-channel
![Page 26: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/26.jpg)
Conclusion
• In this paper, three frequency reuse schemes for the two-hop relay network based on IEEE 802.16j has been proposed.
• The simulation results indicate that the proposed IBFRS+DFPP+SR scheme can significantly improve the throughput of the access links with little negative influence to other users served by the BS.
• Our future work will focus on more complex scenarios, such as networks with directional antennas.
![Page 27: Multiple Frequency Reuse Schemes in the Two-hop IEEE 802.16j Wireless Relay Networks with Asymmetrical Topology Weiwei Wang a, Zihua Guo b, Jun Cai c,](https://reader036.fdocuments.us/reader036/viewer/2022081520/5697bff41a28abf838cbd0ff/html5/thumbnails/27.jpg)
The End
THANK YOUTHANK YOU