TY - GEN
T1 - Frequency allocation schemes for supporting mobile TV services in 3G/4G networks
AU - Li, Mingfu
AU - Chen, Liang Wei
PY - 2012
Y1 - 2012
N2 - Frequency planning schemes in 3G/4G networks for supporting both mobile TV and voice/data services are presented in this article. To enhance the system capacity and avoid inter-cell interference, the soft frequency reuse (SFR) scheme can be utilized in 3G/4G systems. In the SFR scheme, the frequency reuse of 3 is employed to allocate the cell-edge band of a cell, while the remaining available spectrum is reserved for the cell-center band. In our proposed frequency allocation scheme, conventional voice/data services will have a higher allocation priority over mobile TV services. To improve the spectrum efficiency, multicast rather than broadcast or unicast must be adopted for mobile TV services. In our proposed scheme, the TV channels with only cell-center users can utilize any frequency bands. However, the TV channels with cell-edge users (may also have cell-center users) must use the cell-edge band and have a larger transmission power. Simulation results will show that our proposed frequency allocation scheme can achieve the higher spectrum utilization and the lower blocking rates.
AB - Frequency planning schemes in 3G/4G networks for supporting both mobile TV and voice/data services are presented in this article. To enhance the system capacity and avoid inter-cell interference, the soft frequency reuse (SFR) scheme can be utilized in 3G/4G systems. In the SFR scheme, the frequency reuse of 3 is employed to allocate the cell-edge band of a cell, while the remaining available spectrum is reserved for the cell-center band. In our proposed frequency allocation scheme, conventional voice/data services will have a higher allocation priority over mobile TV services. To improve the spectrum efficiency, multicast rather than broadcast or unicast must be adopted for mobile TV services. In our proposed scheme, the TV channels with only cell-center users can utilize any frequency bands. However, the TV channels with cell-edge users (may also have cell-center users) must use the cell-edge band and have a larger transmission power. Simulation results will show that our proposed frequency allocation scheme can achieve the higher spectrum utilization and the lower blocking rates.
UR - http://www.scopus.com/inward/record.url?scp=84864033452&partnerID=8YFLogxK
U2 - 10.1109/HSIC.2012.6213019
DO - 10.1109/HSIC.2012.6213019
M3 - 会议稿件
AN - SCOPUS:84864033452
SN - 9781467306751
T3 - 2012 4th International High Speed Intelligent Communication Forum, HSIC 2012, Proceeding
SP - 92
EP - 95
BT - 2012 4th International High Speed Intelligent Communication Forum, HSIC 2012, Proceeding
T2 - 2012 4th International High Speed Intelligent Communication Forum, HSIC 2012
Y2 - 10 May 2012 through 11 May 2012
ER -