446 research outputs found
Delay Optimal Secrecy in Two-Relay Network
We consider a two-relay network in which a source aims to communicate a
confidential message to a destination while keeping the message secret from the
relay nodes. In the first hop, the channels from the source to the relays are
assumed to be block-fading and the channel states change arbitrarily -possibly
non-stationary and non-ergodic- across blocks. When the relay feedback on the
states of the source-to-relay channels is available on the source with no
delay, we provide an encoding strategy to achieve the optimal delay. We next
consider the case in which there is one-block delayed relay feedback on the
states of the source-to-relay channels. We show that for a set of channel state
sequences, the optimal delay with one-block delayed feedback differs from the
optimal delay with no-delayed feedback at most one block
To Obtain or not to Obtain CSI in the Presence of Hybrid Adversary
We consider the wiretap channel model under the presence of a hybrid, half
duplex adversary that is capable of either jamming or eavesdropping at a given
time. We analyzed the achievable rates under a variety of scenarios involving
different methods for obtaining transmitter CSI. Each method provides a
different grade of information, not only to the transmitter on the main
channel, but also to the adversary on all channels. Our analysis shows that
main CSI is more valuable for the adversary than the jamming CSI in both
delay-limited and ergodic scenarios. Similarly, in certain cases under the
ergodic scenario, interestingly, no CSI may lead to higher achievable secrecy
rates than with CSI.Comment: 8 pages, 3 figure
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An Integrated Routing and Rate Adaptation Framework for Multi-rate Multi-hop Wireless Networks
International audienceIn this paper, we propose a new integrated framework for joint routing and rate adaptation in multi-rate multi-hop wireless networks. Unlike many previous efforts, our framework considers several factors that affect end-to-end performance. Among these factors, the framework takes into account the effect of the relative positions of the links on a path when choosing the rates of operation and the importance of avoiding congested areas. The key element of our framework is a new comprehensive path metric that we call ETM (for expected transmission cost in multi-rate wireless networks). We analytically derive the ETM metric. We show that the ETM metric can be used to determine the best end-to-end path with a greedy routing approach. We also show that the metric can be used to dynamically select the best transmission rate for each link on the path via a dynamic programming approach. We implement the ETM-framework on an indoor wireless mesh network and compare its performance with that of frameworks based on the popular ETT and the recently proposed ETOP metrics. Our experiments demonstrate that the ETM-framework can yield throughput improvements of up to 253 and 368 % as compared with the ETT and ETOP frameworks
Could Public Restrooms Be an Environment for Bacterial Resistomes?
PMCID: PMC3547874This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited
Effects of boric acid and humate supplementation on performance and egg quality parameters of laying hens
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