Broadcast-efficient protocols for mobile radio networks

Abstract

The main contribution of this work is to present elegant broadcast-efficient protocols for permutation routing, ranking, and sorting on single-hop Mobile Radio Networks with p stations and k radio channels, denoted by MRN(p,k). Clearly, any protocol performing these tasks on n items must perform /sup n///sub k/ broadcast rounds because each item must be broadcast at least once. We begin by presenting an optimal off-line permutation routing protocol using /sup n///sub k/ broadcast rounds for arbitrary k, p, and n. Further, we show that optimal on-line routing can be performed in /sup n///sub k/ broadcast rounds, provided that either k=1 or p=n. We then go on to develop an online routing protocol that takes 2/sup n///sub k/+k-1 broadcast rounds on the MRN(p,k), whenever k/spl les//spl radic//sup p///sub 2/. Using these routing protocols as basic building blocks, we develop a ranking protocol that takes 2/sup n///sub k/+o(/sup n///sub k/) broadcast rounds as well as a sorting protocol that takes 3/sup n///sub k/+o(/sup n///sub k/) broadcast rounds, provided that k /spl epsiv/ o(/spl radic/n) and p=n. Finally, we develop a ranking protocol that takes 3/sup n///sub k/+o(/sup n///sub k/) broadcast rounds, as well as a sorting protocol that takes 4/sup n///sub k/+o(/sup n///sub k/) broadcast rounds on the MRN(p,k), provided that k/spl les//spl radic//sup p///sub 2/ and p /spl epsiv/ o(n). Featuring very low proportionality constants, our protocols offer a vast improvement over the state of the art.