In an ad hoc cognitive radio
network, secondary users access channels temporarily unused by primary users,
and the existence of a communication link between two secondary users depends
on the transmitting and receiving activities of nearby primary users. Using
theories and techniques from continuum percolation and periodicity, we
analytically characterize the connectivity of the secondary network defined in
terms of the almost sure finiteness of the multi hop delay, and show the
occurrence of a phase transition phenomenon while studying the impact of the
temporal dynamics of the primary traffic on the connectivity of the secondary
network. Specifically, as long as the primary traffic has some temporal
dynamics caused by either mobility and/or changes in traffic load and pattern,
the connectivity of the secondary network depends solely on its own density and
is independent of the primary traffic; otherwise, the connectivity of the
secondary network requires putting a density-dependent cap on the primary traffic
load. We show that the scaling behavior of the multi hop delay depends
critically on whether or not the secondary network is instantaneously
connected. In particular, we establish the scaling law of the minimum multi hop
delay with respect to the source-destination distance when the propagation
delay is negligible.
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