TSIT65	Signal Theory D, 4,5 ECTS-points /Signalteori D/ Advancement level: C
	Aim: The purpose with the course is to give basic knowledge in contnuous-time and discrete-time signal processing for deterministic as well as stochastic signals. Prerequisites: TSDT 69 Circuit theory, TAMS 15 or 16 Mathematical Statistics, first course. Course organization: The course consists of lectures, lessons and laboratory work. Course content: System and signal models. Basic problems and mathematical models, deterministic and stochastic signals. Description of stochastic signals: distribution and density function, mean value, autocorrelation function, spectral density, stationarity, ergodicity. Linear filtering of continuous-time and discrete-time stochastic signals: mean values and spectral density, gaussian signals, white noise, matched filter. Nonlinear filtering: gaussian signals, effects on bandwidth, applications within modulation, quantization. Sampling and reconstruction, sampling theorem, pulse modulation, reconstruction errors. DFT, discrete fourier transform: resolution, windowing, cyclic convolution, comparison with other transforms. Estimation: estimation of mean value, autcorrelation function and spectral density. Noise in electronic components. Signal processing examples: interpolation, decimation, compression, expansion. Course literature: Compendium
TEN1	Written examination, 2 p.
LAB1	Labratory work, 1 p.

Course language is swedish.