TY - GEN
T1 - Inter-cell scheduling in wireless data networks
AU - Bonald, Thomas
AU - Borst, Sem
AU - Proutière, Alexandre
N1 - Publisher Copyright:
© Copyright 2015 IEEE All rights reserved.
PY - 2005/1/1
Y1 - 2005/1/1
N2 - Over the past few years, the design and performance of channel-aware scheduling strategies have attracted huge interest. In the present paper we examine a different notion of scheduling, namely coordination of transmissions among base stations, which has received little attention so far. The inter-cell coordination comprises two key elements: (i) interference avoidance; and (ii) load balancing. The interference avoidance involves coordinating the activity phases of interfering base stations so as to increase transmission rates. The load balancing aims at diverting traffic from heavily-loaded cells to lightly-loaded cells. We consider a dynamic scenario where users come and go over time as governed by the arrival and completion of random data transfers, and evaluate the potential capacity gains from inter-cell coordination in terms of the maximum amount of traffic that can be supported for a given spatial traffic pattern. Numerical experiments demonstrate that inter-cell scheduling may provide significant capacity gains, the relative contribution from interference avoidance vs. load balancing depending on the configuration and the degree of load imbalance in the network.
AB - Over the past few years, the design and performance of channel-aware scheduling strategies have attracted huge interest. In the present paper we examine a different notion of scheduling, namely coordination of transmissions among base stations, which has received little attention so far. The inter-cell coordination comprises two key elements: (i) interference avoidance; and (ii) load balancing. The interference avoidance involves coordinating the activity phases of interfering base stations so as to increase transmission rates. The load balancing aims at diverting traffic from heavily-loaded cells to lightly-loaded cells. We consider a dynamic scenario where users come and go over time as governed by the arrival and completion of random data transfers, and evaluate the potential capacity gains from inter-cell coordination in terms of the maximum amount of traffic that can be supported for a given spatial traffic pattern. Numerical experiments demonstrate that inter-cell scheduling may provide significant capacity gains, the relative contribution from interference avoidance vs. load balancing depending on the configuration and the degree of load imbalance in the network.
UR - https://www.scopus.com/pages/publications/84946811095
M3 - Conference contribution
AN - SCOPUS:84946811095
T3 - 11th European Wireless Conference 2005 - Next Generation Wireless and Mobile Communications and Services, European Wireless 2005
BT - 11th European Wireless Conference 2005 - Next Generation Wireless and Mobile Communications and Services, European Wireless 2005
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 11th European Wireless Conference on Next Generation Wireless and Mobile Communications and Services, European Wireless 2005
Y2 - 10 April 2005 through 13 April 2005
ER -