TY - GEN
T1 - K-tier heterogeneous small-cell networks
T2 - 2013 1st International Black Sea Conference on Communications and Networking, BlackSeaCom 2013
AU - Sambo, Yusuf A.
AU - Shakir, Muhammad Z.
AU - Ekti, Ali R.
AU - Qaraqe, Khalid A.
AU - Serpedin, Erchin
AU - Imran, Muhammad A.
PY - 2013
Y1 - 2013
N2 - Heterogeneous small-cell networks (HetSNets) are considered as a standard part of the future mobile networks where multiple low-power, low-cost base stations (e.g., femtocells) complement the existing macrocell infrastructure. In this paper, we propose a heterogeneous network where multiple tiers of small-cells are deployed which in turn expand the network coverage and increase the frequency reuse distance without compromising the frequency reuse factor. The resultant network is referred to as K-tier HetSNets, where small-cells are padded between the macrocells such that each of the macrocells in the network employs aggressive frequency reuse scheme, i.e., same set of frequencies is used in each macrocell. It has been shown that the co-channel interference due to neighboring macrocells has been reduced significantly without increasing the frequency reuse factor. The large scale deployment of the small-cells may increase the downlink power consumption of the considered HetSNet. Therefore, we show that the population of small-cells in each of the K-tiers is probabilistically dependent on the traffic load due to active mobile users, such that the small-cells in the network turn on their sleep mode under low and medium traffic load during the day. Several simulation results are included to illustrate the impact of the aggressive frequency reuse scheme and traffic load dependent population of small-cells on the system interference and downlink power consumption of the small-cell base stations.
AB - Heterogeneous small-cell networks (HetSNets) are considered as a standard part of the future mobile networks where multiple low-power, low-cost base stations (e.g., femtocells) complement the existing macrocell infrastructure. In this paper, we propose a heterogeneous network where multiple tiers of small-cells are deployed which in turn expand the network coverage and increase the frequency reuse distance without compromising the frequency reuse factor. The resultant network is referred to as K-tier HetSNets, where small-cells are padded between the macrocells such that each of the macrocells in the network employs aggressive frequency reuse scheme, i.e., same set of frequencies is used in each macrocell. It has been shown that the co-channel interference due to neighboring macrocells has been reduced significantly without increasing the frequency reuse factor. The large scale deployment of the small-cells may increase the downlink power consumption of the considered HetSNet. Therefore, we show that the population of small-cells in each of the K-tiers is probabilistically dependent on the traffic load due to active mobile users, such that the small-cells in the network turn on their sleep mode under low and medium traffic load during the day. Several simulation results are included to illustrate the impact of the aggressive frequency reuse scheme and traffic load dependent population of small-cells on the system interference and downlink power consumption of the small-cell base stations.
KW - Heterogeneous small-cell networks (HetSNets)
KW - aggressive frequency reuse scheme
KW - co-channel interference
KW - daily traffic profile and downlink power consumption
KW - frequency reuse distance
UR - http://www.scopus.com/inward/record.url?scp=84890064726&partnerID=8YFLogxK
U2 - 10.1109/BlackSeaCom.2013.6623396
DO - 10.1109/BlackSeaCom.2013.6623396
M3 - Conference contribution
AN - SCOPUS:84890064726
SN - 9781479908578
T3 - 2013 1st International Black Sea Conference on Communications and Networking, BlackSeaCom 2013
SP - 132
EP - 136
BT - 2013 1st International Black Sea Conference on Communications and Networking, BlackSeaCom 2013
Y2 - 3 July 2013 through 5 July 2013
ER -