Derived from
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20810154 ADVANCED ANTENNA ENGINEERING in Electronic engineering for industry and innovation LM-29 BACCARELLI PAOLO
(syllabus)
I PART
Introductory concepts: Linear algebraic systems and their numerical solution Singular-value decomposition (SVD) of general complex matrices. Fundamentals of radiation. Antenna parameters. Elementary array theory. Beyond elementary array theory.
Microstrip and Printed antennas: Overview, basic principles of operation, feeding methods, and radiation characteristics. Design procedures and CAD formulas. Circular polarization, broadband and multi-band antennas, and miniaturization.
II PART
Periodic structures: Introduction, basic theory (space harmonics, Floquet theorem). Brillouin diagrams. Bloch analysis.
Leaky-wave antennas (LWAs): General features and classification. Design procedures for 1D LWAs. Fabry-Perot cavity antennas; general features of 2D LWAs
Arrays for wireless communications: Characterization of the wireless channel. Arrays and diversity. Introduction to Multiple-Input/Multiple-Output (MIMO) systems.
Boundary integral equations and the Method of Moments (MoM): MoM for 1D integral equations; basis and test functions. MoM for thin wires. Boundary integral representations of the electromagnetic field and boundary integral equations. Mixed-Potential Integral Equation (MPIE) in free space. MoM for MPIE: basis and test functions. MPIE in layered media. Sommerfeld integrals, asymptotic extractions, and spatial singularities. Acceleration techniques for integral and series in electromagnetic problems. MoM for MPIE: periodic structures (free space and layered media).
III (Numerical simulations with commercial electromagnetic software)
Electromagnetic CAD: Ansys Designer and FEKO: introduction and general features. Analysis of microstrip antennas: simple patch antenna, mutual coupling, and array configurations. Analysis of Frequency Selective Surfaces. (FSSs)
(reference books)
Teaching material: • Slides of the lessons available on the Moodle area of the course
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