Changes between Version 10 and Version 11 of Projects/EarsSec


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Timestamp:
Sep 29, 2015, 3:01:52 PM (9 years ago)
Author:
trappe
Comment:

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  • Projects/EarsSec

    v10 v11  
    55[[Image(Logo_NSF.jpg)]]
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    7 This is a project placeholder...
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    9 Overview:
     8== Overview: ==
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    1110Software defined radios (SDR) are an enabling technology for spectrum sharing that will support
     
    1918focus of this NSF project.
    2019
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     22== Project 1: Spectrum Scanning with Cognitive Radios to Find Anomalous Usage ==
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    2125In order to enhance the security of cognitive radio (CR) systems, improvements have been made and a [http://www.orbit-lab.org/attachment/wiki/Projects/EarsSec/SingleScanner_ICASSP_main.pdf paper] has been published on using game theory to detect an intruder in a very wide band of spectrum. Assuming that the spectrum band is wider than the highest sampling rate a CR can support, the CR can only scan small parts of the band at a time. With variable SINR across the band, the gain the adversary can achieve by intruding different parts of the band can vary significantly. The gain will affect the probability that the adversary intrudes a certain part of the whole band. The game-theoretic approach described in the paper uses these probabilities across the band to determine the band the scanner will check in the attempt to detect the intruder. The paper divides time into discrete chunks to simplify the approach. First, the probabilities are calculated for different parts of the whole band, and then a decision is made on which part of the band will be scanned first. Then, depending on whether the intruder was detected, in each step these probabilities are adjusted, and the next subband to be scanned is determined. This approach enables CRs with low sampling rates to efficiently scan very wide bands of spectrum. An example of the game is shown on the figure below. The whole band was taken from 600 MHz to 800 MHz, with the highest sampling rate of the CR 20 MHz. X-axis represents the bandwidth, y-axis represents time. White ovals are the bands the intruder chose, and the parts of the band that are non-blue are the parts scanned. It is important to notice that in the sixth time interval the scanner chose the correct subband, but failed to detect the intruder due to high interference in this part of the whole band.
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    2327[[Image(spectrumgame_withintruder.jpg)]]
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     30== Future Plans ==
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     32Ongoing research is currently focused on matters related to localizing and mitigating the effect of an interference source in a cognitive radio network, as well as improving spectrum scanning applications. Notably, the team is exploring enhancing experiments to more than 200MHz of spectrum through multi-sensor collaborative mechanisms.
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     35== Team ==
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     37Wade Trappe
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     39Yanyong Zhang
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     41Dragoslav Stojadinovic
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     43== Collaborators ==
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     45Virginia Tech