The Balanced Unicast and Multicast Capacity Regions of Large Wireless Networks

Abstract

We consider the question of determining the scaling of the n[superscript n] -dimensional balanced unicast and the n 2[superscript n]-dimensional balanced multicast capacity regions of a wireless network with n nodes placed uniformly at random in a square region of area n and communicating over Gaussian fading channels. We identify this scaling of both the balanced unicast and multicast capacity regions in terms of [theta](n), out of 2[superscript n] total possible, cuts. These cuts only depend on the geometry of the locations of the source nodes and their destination nodes and the traffic demands between them, and thus can be readily evaluated. Our results are constructive and provide optimal (in the scaling sense) communication schemes.United States. Defense Advanced Research Projects Agency (grant (ITMANET) 18870740-37362-C)United States. Air Force Office of Scientific Research (grant (complex networks) MIT subaward 00006517)National Science Foundation (U.S.) (grant CNS-0519535)United States. Air Force Office of Scientific Research (grant FA9550-09-1-0317