№

Section names

Watch

Total

Lectures

Practically.

1

The purpose and objectives of the course, its content, the main operations in the DSP, the scope of application.

2

Mathematical description of typical discrete signals. Forward and reverse Z-transformations. Properties of the Z-transform

2

2

-

3

Filter types and their properties. Difference equations. Transfer functions and structures of digital filters. Structures of digital filters. Poles and zeros of the transfer function. Pulse response. Stability of discrete filters.

4

2

2

4

The amplitude-frequency (AFC) and phase-frequency characteristics (FFC) of recursive filters of the 1st and 2nd orders. Normalized filters. Frequency response and frequency response of non-recursive filters with symmetric coefficients. Hilbert converter, amplitude and phase correctors.

4

2

2

5

Quantization of numbers and signals. Quantization noise of the analog-to-digital converter (ADC) and their effect on the output signal of the digital system. The intrinsic noise of a digital system, its linear model. Full system output noise. Dynamic range of the digital system and scaling. Limit cycles.

4

2

6

6

Algorithms and processors of digital signal processing (DSP). General principles of building signal processors and features of their architecture.

4

2

2

7

Mathematical description of typical discrete signals. Forward and reverse Z-transformations. Properties of the Z-transform

8

2

6

8

The purpose and objectives of the course, its content, the main operations in the DSP, the scope of application.

4

2

2

TOTAL

36

16

20