This paper discusses the power efficiency of a communications channel, i.e., the maximum bit rate that can be achieved per unit power (energy rate). For AWGN channels, it is well known that power efficiency is attained in the low SNR regime. In this paper we show that for a random sensory, or ad-hoc, wireless network with n users (nodes), with high probability converging to one as n grows, the power efficiency scales at least by a factor of √n. In other words, each user in a wireless channel with n nodes can support the same communications rate as a single user system, but by expending only 1/√n the energy
Abstract—A wireless sensory relay network consists of one source node, one destination node and mult...
We study network coding for multi-hop wireless networks. We focus the case of broadcasting, where on...
We consider broadcasting in multi-hop wireless networks, in which one source transmits information t...
We consider the power efficiency of a communications channel, i.e., the maximum bit rate that can be...
We look at the power bandwidth trade-off in random sensory and ad-hoc wireless networks with n users...
We look at the power bandwidth trade-off in random sensory and ad-hoc wireless networks with n users...
In this paper, we study how the achievable throughput scales in a wireless network with randomly loc...
We consider the problem of how throughput in a wireless network with randomly located nodes scales a...
We address the cost incurred in increasing the transport ca-pacity of wireless ad hoc networks over ...
Throughput scaling and optimal hop distance of interference-limited wireless networks have been well...
In this paper, we address the issue of transmission power control in wireless ad-hoc networks. In ge...
Abstract—We study the scaling of the capacity per unit energy of a wireless network as a function of...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
Energy harvesting (EH) nodes, which harvest energy from the environment in order to communicate over...
We consider broadcasting in multi-hop wireless networks, in which one source transmits information t...
Abstract—A wireless sensory relay network consists of one source node, one destination node and mult...
We study network coding for multi-hop wireless networks. We focus the case of broadcasting, where on...
We consider broadcasting in multi-hop wireless networks, in which one source transmits information t...
We consider the power efficiency of a communications channel, i.e., the maximum bit rate that can be...
We look at the power bandwidth trade-off in random sensory and ad-hoc wireless networks with n users...
We look at the power bandwidth trade-off in random sensory and ad-hoc wireless networks with n users...
In this paper, we study how the achievable throughput scales in a wireless network with randomly loc...
We consider the problem of how throughput in a wireless network with randomly located nodes scales a...
We address the cost incurred in increasing the transport ca-pacity of wireless ad hoc networks over ...
Throughput scaling and optimal hop distance of interference-limited wireless networks have been well...
In this paper, we address the issue of transmission power control in wireless ad-hoc networks. In ge...
Abstract—We study the scaling of the capacity per unit energy of a wireless network as a function of...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
Energy harvesting (EH) nodes, which harvest energy from the environment in order to communicate over...
We consider broadcasting in multi-hop wireless networks, in which one source transmits information t...
Abstract—A wireless sensory relay network consists of one source node, one destination node and mult...
We study network coding for multi-hop wireless networks. We focus the case of broadcasting, where on...
We consider broadcasting in multi-hop wireless networks, in which one source transmits information t...
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