Abstract
Topology control is a key issue of wireless sensor network to reduce energy consumption and communication collision. Topology control algorithms in three-dimensional space have been proposed by modifying existing two-dimensional algorithms. These algorithms are based on the theoretical assumption that transmission power is radiated equally to the all directions by using isotropic antenna model. However, isotropic antenna does not exist, which is hypothetical antenna to compare the real antenna performance. In the real network, dipole antenna is applied, and because of the radiation pattern, performance of topology control algorithm is degraded. We proposed local remapping algorithm to solve the problem and applied it to existing topology control algorithms. Simulation results show that our algorithm increases performance of existing algorithms and reduces power consumption.
Highlights
The short sensing sensor ranges in a wireless sensor network result in a high density network, which causes many communication collisions
Because a topology control algorithm reduces the transmission range to reduce interference and collision, the network connectivity is susceptible to node failures
We used half-wave dipole antenna, which is widely used in wireless sensor networks
Summary
The short sensing sensor ranges in a wireless sensor network result in a high density network, which causes many communication collisions. The topology control algorithm attempts to find the minimum transmission range while maintaining network connectivity within a network layer. Collisions are greatly reduced and network efficiency is increased This is done under the assumption that optimal throughput performance can be achieved when using the minimum transmission power that is required to maintain network connectivity. It seems reasonable because low transmission power reduces both interference and collision. The isotropic antenna is an ideal antenna that radiates its power uniformly in all directions This means that each node has a transmission range of perfect sphere shape.
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