Topology control for ad-hoc networks is crucial due to the absence of a fixed infrastructure that can guarantee satisfactory connectivity among communication nodes. In this paper, we study the impacts of adjustment of transmission power as a means to control the network topology (connectivity) to the signal-to-interference-plus-noise (SINR) ratio and the number of hops between two nodes, where the SINR and the hop count are highly related to the network throughput and packet delay, respectively. We investigate three distinct topologies: fully, minimally and moderately connected networks. Our results show that adjusting the power level is a very effective way to control the network topology, while enabling to achieve the desirable tradeoffs ...
Abstract—Energy scarcity and interference are two important factors determining the performance of w...
Wireless ad hoc nodes are freely and dynamically self-organize in communicating with others. Each no...
In order to be strongly connected in the network, a node may increase its power indiscriminately cau...
Abstract—Topology control for ad-hoc networks is crucial due to the absence of a fixed infrastructur...
In this paper, we address the issue of transmission power control in wireless ad-hoc networks. In ge...
We consider the problem of adjusting the transmit powers of nodes in a multihop wireless network (al...
Transmission power control in ad-hoc networks has hitherto been used only for achieving network conn...
In ad hoc wireless networks packets are relayed over multiple hops to reach their destination. In or...
Topology Control (TC) is a well-studied technique used in wireless ad hoc networks to find energy-ef...
AbstractIn order to reduce energy consumption in wireless ad hoc and sensor networks, the Topology C...
In this paper we study the issue of topology control under the physical Signal-to-Interference-Noise...
Topology control in ad-hoc networks is the problem of adjusting the transmission power at network no...
Power control in mobile and wireless ad hoc networks has received increasing research interest in re...
In ad hoc wireless networks, to compute the transmission power of each wireless node such that the r...
The wireless mobile adhoc networks are dynamically Varying, the network performance may change by di...
Abstract—Energy scarcity and interference are two important factors determining the performance of w...
Wireless ad hoc nodes are freely and dynamically self-organize in communicating with others. Each no...
In order to be strongly connected in the network, a node may increase its power indiscriminately cau...
Abstract—Topology control for ad-hoc networks is crucial due to the absence of a fixed infrastructur...
In this paper, we address the issue of transmission power control in wireless ad-hoc networks. In ge...
We consider the problem of adjusting the transmit powers of nodes in a multihop wireless network (al...
Transmission power control in ad-hoc networks has hitherto been used only for achieving network conn...
In ad hoc wireless networks packets are relayed over multiple hops to reach their destination. In or...
Topology Control (TC) is a well-studied technique used in wireless ad hoc networks to find energy-ef...
AbstractIn order to reduce energy consumption in wireless ad hoc and sensor networks, the Topology C...
In this paper we study the issue of topology control under the physical Signal-to-Interference-Noise...
Topology control in ad-hoc networks is the problem of adjusting the transmission power at network no...
Power control in mobile and wireless ad hoc networks has received increasing research interest in re...
In ad hoc wireless networks, to compute the transmission power of each wireless node such that the r...
The wireless mobile adhoc networks are dynamically Varying, the network performance may change by di...
Abstract—Energy scarcity and interference are two important factors determining the performance of w...
Wireless ad hoc nodes are freely and dynamically self-organize in communicating with others. Each no...
In order to be strongly connected in the network, a node may increase its power indiscriminately cau...