Lectures related to Radiation and Antennas: System Aspects

Radiation and Antennas: Ideal Antennas

Explores radiation at antennas, reciprocity, directivity, and the Friis formula.

Radiation and Antennas II

Explores reciprocity of powers, capture surface, linear wire antennas, and radar cross-section examples.

Radiation and Antennas: Reciprocity Theorems

Explores reciprocity theorems in radiation and antennas, including classical and circuit reciprocity theorems.

Antennas: Openings and Radiation

Explores antennas with openings, equivalent problems, and radiation patterns from thin slits.

Radiation and Antennas: Equi-amplitude Networks

Explores equi-amplitude networks in radiation and antennas, discussing main beam width and ambiguity lobes.

Characteristic Parameters of Antennas

Explores characteristic parameters of antennas, radiation patterns, and antenna types.

Real Antennas: Efficiency, Radiation, and Polarization

Explores the efficiency, radiation, and polarization of real antennas, including losses, gain, and typical yields.

Radiation and Antennas: Thin Slot Antenna

Explores radiation and antennas, emphasizing thin slot antennas and their radiation patterns.

Radiation and Antennas: Network Factor Analysis

Analyzes the network factor in radiation and antennas, exploring zero mutual coupling and linear arrays.

Radiation and Antennas

Explores interference, reflection, diffraction, fog effects, antennas, noise, EIRP, and link assessment in radiation and antennas.

Maxwell Equations for Antennas: Theory and Applications

Explores the application of Maxwell's equations to antennas, covering radiation, potentials, currents, waves, and polarization.

Antennas and Radiation: Network Factors

Explores network factors in antennas, focusing on radiation patterns and antenna configurations.

Radiation and Antennas: Introduction

Introduces radiation and antennas, covering fundamental concepts, characteristics, reciprocity, guided waves, and frequency aspects.

Antennas: Radiation and Aperture

Covers the fundamentals of radiation and antennas, focusing on aperture antennas and the uniqueness theorem.

Radiation and Antennas: Orthogonal Herz Dipole Network

Covers the concept of radiation and antennas in orthogonal Herz dipole networks.

Radiation and Antennas II

Covers real antennas with losses, mismatched antennas, radiation, and polarization concepts.

Propagation and Antennas: Atmospheric Effects and Wireless Links

Explores the effects of rain, fog, and obstacles on wave propagation, antenna characteristics, noise in wireless systems, and signal-to-noise ratio.

Radiation and Antennas: Noise and Propagation Fundamentals

Explores noise and propagation fundamentals in radiation, antennas, and wireless communications, covering internal and external noise sources, thermal noise, wireless principles, and signal propagation phenomena.

Radiation and Antennas: EPFL Networks

Explores the theory of networks, mutual coupling in radiation and antennas, and the use of metamaterials.

Radiation and Antennas: Fundamentals and Applications

Explores radiation and antennas fundamentals, efficiency, gain, and impedance matching for power transfer.