Title page for ETD etd-05212009-163628

Type of Document Master's Thesis
Author Reed, Jesse
Author's Email Address jesser@vt.edu
URN etd-05212009-163628
Title Approaches to Multiple-source Localization and Signal Classification
Degree Master of Science
Department Electrical and Computer Engineering
Advisory Committee
Advisor Name Title
Buehrer, Richard Michael Committee Co-Chair
da Silva, Claudio R. C. M. Committee Co-Chair
Reed, Jeffrey Hugh Committee Member
  • Multiple-Source Localization
  • Source Classification
  • Direction Finding
  • cyclic MUSIC
  • Modulation Classification
  • Single-Source Localization
  • Data Association
Date of Defense 2009-05-05
Availability unrestricted
Source localization with a wireless sensor network remains an important area of research as the number of applications with this problem increases. This work considers the problem of source localization by a network of passive wireless sensors. The primary means by which localization is achieved is through direction-finding at each sensor, and in some cases, range estimation as well. Both single and multiple-target scenarios are considered in this research. In single-source environments, a solution that outperforms the classic least squared error estimation technique by combining direction and range estimates to perform localization is presented. In multiple-source environments, two solutions to the complex data association problem are addressed. The first proposed technique offers a less complex solution to the data association problem than a brute-force approach at the expense of some degradation in performance. For the second technique, the process of signal classification is considered as another approach to the data association problem. Environments in which each signal possesses unique features can be exploited to separate signals at each sensor by their characteristics, which mitigates the complexity of the data association problem and in many cases improves the accuracy of the localization. Two approaches to signal-selective localization are considered in this work. The first is based on the well-known cyclic MUSIC algorithm, and the second combines beamforming and modulation classification. Finally, the implementation of a direction-finding system is discussed. This system includes a uniform circular array as a radio frequency front end and the universal software radio peripheral as a data processor.
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