A three-dimensional (3-D) Fourier transform (FT) of a linear function with triangular support is derived in its coordinate-free representation. The Fourier transform of this distribution is derived in three steps. First, the 2-D FT of a constant (top hat) function is obtained. Next, the distribution is generalized to a linearly varying function. Finally, the formulation is extended to a coordinate-free representation which is the 3-D FT of the 2-D function defined over a surface. This formulation is applied to the near-field computation, yielding accurate numerical solutions.link_to_subscribed_fulltex
Although 1D and 2D fast Fourier transforms (FFTs) have long been used for the filtering, interpretat...
Numerical simulation and inversion imaging are essential in geophysics exploration. Fourier transfor...
none1noThe Fourier transform is a key tool in several research fields: engineering, mathematics, app...
We review Fourier methods used in the disciplines of electromagnetism and signal processing, with a ...
Abstract A near- to far-eld transformation (NTFT) based on the RWG basis function is proposed for a...
The Fourier Transform is a powerful tool to deal with the radiated far field pattern of source distr...
3-D controlled-source electromagnetic data are often computed directly in the domain of interest, ei...
AbstractThis paper concerns triangular function analysis including triangular function series and tr...
We present a general mesh-free description of the magnetic field distribution in various electromagn...
A numerical algorithm for reconstruction of the permittivity of a three-dimensional penetrable objec...
In classical Physics, the Lippmann-Schwinger equation links the field scattered by an ensemble of pa...
I obtain a closed-form expression for the total-field magnetic anomaly generated by a 3D Gaussian ma...
The non – sinusoidal transforms with orthogonal functions consists of Hadamard, Walsh, and Haar func...
We provide a sufficient condition to select the parameters of Type 3 Non-Uniform Fast Fourier Transf...
The problem of electromagnetic scattering by a three-dimensional dielectric object can be formulated...
Although 1D and 2D fast Fourier transforms (FFTs) have long been used for the filtering, interpretat...
Numerical simulation and inversion imaging are essential in geophysics exploration. Fourier transfor...
none1noThe Fourier transform is a key tool in several research fields: engineering, mathematics, app...
We review Fourier methods used in the disciplines of electromagnetism and signal processing, with a ...
Abstract A near- to far-eld transformation (NTFT) based on the RWG basis function is proposed for a...
The Fourier Transform is a powerful tool to deal with the radiated far field pattern of source distr...
3-D controlled-source electromagnetic data are often computed directly in the domain of interest, ei...
AbstractThis paper concerns triangular function analysis including triangular function series and tr...
We present a general mesh-free description of the magnetic field distribution in various electromagn...
A numerical algorithm for reconstruction of the permittivity of a three-dimensional penetrable objec...
In classical Physics, the Lippmann-Schwinger equation links the field scattered by an ensemble of pa...
I obtain a closed-form expression for the total-field magnetic anomaly generated by a 3D Gaussian ma...
The non – sinusoidal transforms with orthogonal functions consists of Hadamard, Walsh, and Haar func...
We provide a sufficient condition to select the parameters of Type 3 Non-Uniform Fast Fourier Transf...
The problem of electromagnetic scattering by a three-dimensional dielectric object can be formulated...
Although 1D and 2D fast Fourier transforms (FFTs) have long been used for the filtering, interpretat...
Numerical simulation and inversion imaging are essential in geophysics exploration. Fourier transfor...
none1noThe Fourier transform is a key tool in several research fields: engineering, mathematics, app...