Reconstruction: Sampling Theorem and Stroboscopic Effect Explained

Related lectures (31)

Page 3 of 4

Explores monochromatic plane waves and scalar Helmholtz equations in electromagnetic wave analysis.

Covers the impact of a partial number of terms in a sum of sinusoids and executing examples with verified inputs.

Explores the wave equation for electromagnetic waves, Maxwell's derivation, the electromagnetic spectrum, and plane wave description.

Covers the science of sound, wave propagation, acoustic properties, and sound wave characteristics.

Covers the sampling theorem, impulse train sampling, bandlimited signals, and the Nyquist rate.

Explains TE and TM modes, guided modes, multimodal fields, and waveguide dispersion.

Explores the sampling theorem through sinusoid reconstruction, under-sampling effects, and signal filtering importance.

Covers the consequences of undersampling signals and the stroboscopic effect.

Explores the interference of light waves in a double slit experiment.

Explores signals, instruments, and systems, covering ADC, Fourier Transform, sampling, signal reconstruction, aliasing, and anti-alias filters.