Worcester Polytechnic Institute Electronic Theses and Dissertations Collection

Title page for ETD etd-042007-151741


Document Typedissertation
Author NameKulkarni, Shashank D
URNetd-042007-151741
TitleDevelopment and Validation of a Method of Moments approach for modeling planar antenna structures
DegreePhD
DepartmentElectrical & Computer Engineering
Advisors
  • Dr. Sergey Makarov, Advisor
  • Dr. David Cyganski, Committee Member
  • Dr. John Orr, Committee Member
  • Dr. Saeed Asgari, Committee Member
  • Keywords
  • patch antennas
  • volume integral equation (VIE)
  • method of moments (MoM)
  • low order basis functions
  • Convergence
  • Date of Presentation/Defense2007-04-13
    Availability unrestricted

    Abstract

    In this dissertation, a Method of Moments (MoM) Volume Integral Equation (VIE)-based modeling approach suitable for a patch or slot antenna on a thin finite dielectric substrate is developed and validated. Two new key features of this method are the use of proper dielectric basis functions and proper VIE conditioning, close to the metal surface, where the surface boundary condition of the zero tangential-component must be extended into adjacent tetrahedra. The extended boundary condition is the exact result for the piecewise-constant dielectric basis functions. The latter operation allows one to achieve a good accuracy with one layer of tetrahedra for a thin dielectric substrate and thereby greatly reduces computational cost. The use of low-order basis functions also implies the use of low-order integration schemes and faster filling of the impedance matrix. For some common patch/slot antennas, the VIE-based modeling approach is found to give an error of about 1% or less in the resonant frequency for one-layer tetrahedral meshes with a relatively small number of unknowns. This error is obtained by comparison with fine finite- element method (FEM) simulations, or with measurements, or with the analytical mode matching approach. Hence it is competitive with both the method of moments surface integral equation approach and with the FEM approach for the printed antennas on thin dielectric substrates.

    Along with the MoM development, the dissertation also presents the models and design procedures for a number of practical antenna configurations. They in particular include:

    i. a compact linearly polarized broadband planar inverted-F antenna (PIFA);

    ii. a circularly polarized turnstile bowtie antenna.

    Both the antennas are designed to operate in the low UHF band and used for indoor positioning/indoor geolocation.

    Files
  • skulkarni.pdf

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