Throughput of Large Wireless Networks on Square, Hexagonal and Triangular Grids

Author

Hong, Kezhu ; Hua, Yingbo

Author_Institution

Dept. of Electr. Eng., California Univ., Riverside, CA

fYear

2006

fDate

12-14 July 2006

Firstpage

461

Lastpage

465

Abstract

Capacity analysis of sensor networks or wireless ad hoc networks has attracted a great attention in the past years. But the research in this area has primarily focused on scaling laws of arbitrary or random network instead of the exact capacity of given topologies. While the insight into how the capacity of an arbitrary or random network scales with the number of nodes in a given area is important, the exact capacity of a network depends on the network topology and can be more desirable in practice. In this paper, we compare the throughput of a large network with three possible topologies: square (rectangular), hexagonal and triangular. With a given topology, the network throughput also depends on the choice of routing protocols. We follow a synchronous array method (SAM) that is known so far to yield the highest throughout of a network on a rectangular grid

Keywords

radio networks; telecommunication network topology; hexagonal grids; network throughput; network topology; random network; square grids; synchronous array method; triangular grids; wireless networks; Access protocols; Capacitive sensors; Mobile ad hoc networks; Network topology; Routing protocols; Signal to noise ratio; Throughput; Wireless mesh networks; Wireless networks; Wireless sensor networks;

fLanguage

English

Publisher

ieee

Conference_Titel

Sensor Array and Multichannel Processing, 2006. Fourth IEEE Workshop on

Conference_Location

Waltham, MA

Print_ISBN

1-4244-0308-1

Type

conf

DOI

10.1109/SAM.2006.1706176

Filename

1706176