1 research outputs found
Scheduling wireless links in the physical interference model by fractional edge coloring
We consider the problem of scheduling the links of wireless mesh networks for
capacity maximization in the physical interference model. We represent such a
network by an undirected graph , with vertices standing for network nodes
and edges for links. We define network capacity to be
, where is a novel
edge-chromatic indicator of , one that modifies the notion of 's
fractional chromatic index. This index asks that the edges of be covered by
matchings in a certain optimal way. The new indicator does the same, but
requires additionally that the matchings used be all feasible in the sense of
the physical interference model. Sometimes the resulting optimal covering of
's edge set by feasible matchings is simply a partition of the edge set. In
such cases, the index becomes the particular case
that we denote by , a similar modification of 's
well-known chromatic index. We formulate the exact computation of
as a linear programming problem, which we solve for
an extensive collection of random geometric graphs used to instantiate networks
in the physical interference model. We have found that, depending on node
density (number of nodes per unit deployment area), often is such that
. This bespeaks the
possibility of increased network capacity by virtue of simply defining it so
that edges are colored in the fractional, rather than the integer, sense.Comment: This version updates metadat