Title :
Enhanced inter-cell interference coordination in co-channel multi-layer LTE-advanced networks
Author :
Pedersen, Klaus I. ; Yuanye Wang ; Strzyz, Stanislaw ; Frederiksen, Frank
Author_Institution :
Aalborg Univ., Aalborg, Denmark
Abstract :
Different technical solutions and innovations are enabling the move from macro-only scenarios towards heterogeneous networks with a mixture of different base station types. In this article we focus on multi-layer LTE-Advanced networks, and especially address aspects related to interference management. The network controlled time-domain enhanced inter-cell interference coordination (eICIC) concept is outlined by explaining the benefits and characteristics of this solution. The benefits of using advanced terminal device receiver architectures with interference suppression capabilities are motivated. Extensive system level performance results are presented with bursty traffic to demonstrate the eICIC concepts ability to dynamically adapt according to the traffic conditions.
Keywords :
Long Term Evolution; cochannel interference; interference suppression; radio receivers; telecommunication network management; Long Term Evolution; advanced terminal device receiver architectures; base station types; bursty traffic conditions; cochannel multilayer LTE-advanced networks; eICIC concept; heterogeneous networks; interference management; interference suppression capabilities; network controlled time-domain enhanced intercell interference coordination; Base stations; Downlink; Interference; Long Term Evolution; Mobile communication; Receivers; Uplink;
Journal_Title :
Wireless Communications, IEEE
DOI :
10.1109/MWC.2013.6549291
