![]() In short, you should do the work yourself and you can ask assistance from others. Once you have solved a problem yourself, you may compare and discuss. You should not copy their solution or allow your solution to be copied. For example, you can ask how someone else went about solving the problem. You may help each other with the homework (it does not need to be handed in). This includes cheating on exams, using resources that are not allowed, copying lab reports or results, copying all or part of another group’s simulations or bread boards, lying to tutors/TAs or instructor, aiding in plagiarism or cheating, or any form of dishonesty. System level applications of antennas (MIMO, Multi-Beam, Phased Arrays, etc.)Ĭheating, plagiarism and any other form of academic dishonesty will not be tolerated. Miniature Antennas (Cell phone applications) Microstrip Antennas: The two-slot model (do not cover cavity model), Microstrip antenna arrays. Equivalence Principle and Slot Antennas (do not cover cavity backed slots) Helical antennas (traveling waves on a circle and end-fire feeding arrangement),Īntennas for circular polarization (other than the helical antenna) Classic Antennas: Dual-Dipole over a ground plane (symmetric pattern, array theory),ĭipole backed by a corner reflector (array theory), Not a lot of coverage, but enough to understand it. Mutual Impedance in Arrays: The emf method. Array Theory and Phased Arrays: Use signal processing techniques to analyze arrays (gain, tapered distribution, amplitude and phase error effects, 1-D and 2-D arrays, etc.) Traveling-Wave Antennas (radio amateur antennas and near-horizon communications) Ground planes and Image Theory (introduce a bit arrays using image theory) Dipoles and Loops, Impedance of dipoles and loops ![]() Radiation and Free-Space Green’s function, Vector and Scalar Potentials Plane waves, Polarization, Wave Impedance, Poynting Vector Review of Maxwell’s Equations, Reciprocity (important to antennas) Friis Transmission and Radar Equations: Some System Examples Introduction to Antennas: Gain, Directivity, Solid-angle, Impedance, Polarization, etc. Communications people should be encouraged to take this course.) (Prerequisites: None, except a standard EM sequence at the undergraduate level. Late homework are not allowed unless by permission from instructor by email.Ģ22A Antennas and Their System Applications That is, we will assign 10, 8, 6, 4, 2, and 0 as grades with the following guidelines: 10 (Well done to mostly done), 6 (about half of it is done), and 0 (not much is done or homework is not given). The homework will be graded very generally. Review Maxwell's Equations and a Wave Chapter in any available undergraduate textbook. Knowledge of Maxwell Equations and Basic Waves. You will not use them.ĭecent math background in differential equations and complex numbers. However, I do not recommend that you bring books with you. Bring your class notes and any cheat-sheets that you wish to write, and any book that you wish.
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