Worcester Polytechnic Institute Electronic Theses and Dissertations Collection

Title page for ETD etd-091207-114218


Document Typethesis
Author NameNadkarni, Aditya
Email Address aditya.nadkarni at gmail.com
URNetd-091207-114218
TitleReflector geometry specific modeling of an annular array based ultrasound pulse-echo system
DegreeMS
DepartmentElectrical & Computer Engineering
Advisors
  • Prof. Peder C. Pedersen, Advisor
  • Prof. Reinhold Ludwig, Committee Member
  • Prof. Sergey N. Makarov, Committee Member
  • Keywords
  • ultrasound modeling
  • annular arrays
  • ultrasound
  • Date of Presentation/Defense2006-07-17
    Availability unrestricted

    Abstract

    Abstract Conventional ultrasound imaging systems use array transducers for focusing and beam steering, to improve lateral resolution and permit real-time imaging. This thesis research investigates a different use of array transducers, where the acoustic field and the receiver characteristics are designed such that the energy of the output signal from targets of a specified geometry is maximized. The output signal is the sum of the received signals obtained using all the possible combinations of transducer array elements as transmitter and receiver. This work is based on annular array transducers, but is applicable for any array configuration.

    The first step is the development of software for the efficient modeling of the wave interaction between transmitted field and target, and between the transducer and receiver field. Using this software, we have calculated the received signal for each combination of an array element as transmitter and the same or another array element as receiver, leading to an N x N received signal matrix for an N element array transducer. A waveform optimization algorithm is then implemented for the purpose of determining the set of delays for the individual array elements, which maximizes the energy of the sum of the received signals. In one implementation of this algorithm, the received signal with the maximum energy is considered as a reference signal, and specific delays are applied to the other signals so that any two signals produce a maximum correlation. This leads to an N x N delay matrix, which, however, is not readily implemented in a practical real-time system, which uses all the elements in an array transducer simultaneously to customize acoustic fields. Hence, the values in this delay matrix are fed into a linear programming optimizer tool to obtain a set of delay values, which makes its implementation practical. The optimized set of delays thus obtained is used to maximize the energy of the received signal for a given transducer and target geometry and hence to enhance the reflectivity of that target. It is also important to check the robustness of the optimized set of delays obtained above, for a given target geometry. Robustness refers to the sensitivity of the optimization to variation in target geometry. This aspect is also evaluated as a part of this thesis work.

    Files
  • Nadkarni_thesis_cover_page.doc
  • Nadkarni_thesis_part1.pdf
  • Nadkarni_thesis_part2.pdf

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