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Hybrid FE-BI-KA method in analysing scattering from dielectric object above sea surface

Hybrid FE-BI-KA method in analysing scattering from dielectric object above sea surface

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© The Institution of Engineering and Technology
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A new and more powerful algorithm combining Kirchhoff approximation (KA) with the hybrid finite element-boundary integral (FE-BI) method is presented to study the interactions between an inhomogeneous object and the underlying sea surface. This hybrid FE-BI-KA scheme is an improved and generalised version of the previous KA-MoM. A reduced model composed of a PEC object above the conducting sea surface is simulated to evaluate the validity of the multi-hybrid technique by comparing with MoM. Then the bistatic scattering pattern of a more complex layered object above the dielectric sea surface is calculated at different wind speeds.

Inspec keywords: boundary integral equations; finite element analysis; electromagnetic wave scattering

Other keywords: PEC object; wind speeds; hybrid finite element-boundary integral method; dielectric object; hybrid FE-BI-KA method; Kirchhoff approximation; bistatic scattering pattern; multihybrid technique; complex layered object; conducting sea surface; inhomogeneous object; reduced model; dielectric sea surface

Subjects: Electromagnetic wave propagation; Numerical approximation and analysis; Integral equations (numerical analysis); Electromagnetic waves: theory; Finite element analysis

References

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      • J.M. Jin . (1993) The finite element method in electromagnetics.
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      • L. Tsang , J.A. Kong . (2000) Scattering of electromagnetic waves – numerical simulations.
http://iet.metastore.ingenta.com/content/journals/10.1049/el.2011.1444
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