Nodal-based basis function for full wave analysis of microstrip antennas with arbitrary geometries

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Nodal-based basis function for full wave analysis of microstrip antennas with arbitrary geometries

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A nodal based basis function is proposed for the full wave analysis of arbitrarily shaped microstrip antennas. The entire region is divided into subregions sharing common nodes, and the current at each node is decomposed into two orthogonal components. The patch currents are expanded in terms of these node currents.

Inspec keywords: antenna theory; microstrip antennas

Other keywords: arbitrary geometries; microstrip antennas; node currents; nodal-based basis function; patch currents; patch antennas; full wave analysis; arbitrarily shaped microstrip antennas; orthogonal components

Subjects: Single antennas; Antenna theory

References

    1. 1)
      • J.R. James , P.S. Hall . (1989) Handbook of microstrip antennas.
    2. 2)
      • S.M. Rao , D.R. Wilton , A.W. Glisson . Electromagnetic scattering by surfaces of arbitrary shape. IEEE Trans. , 409 - 418
    3. 3)
      • D.M. Pozar . Microstrip antenna aperture-coupled to a microstripline. Electron. Lett. , 2 , 49 - 50
    4. 4)
      • D.M. Pozar . Input impedance and mutual coupling of rectangular microstrip antennas. IEEE Trans. , 1191 - 1196
    5. 5)
      • P.L. Sullivan , D.H. Schaubert . Analysis of an aperture coupled microstrip antenna. IEEE Trans. , 977 - 984
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