• Lecture Signal processing: Fourier representation of signals include all of the following content: Sinusoidal signals and their properties, fourier representation of continuous – time signals, fourier representation of discrete – time signals, summary of fourier series and fourier transforms, properties of the discrete – time fourier transform.

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• Lecture Digital signal processing - Lecture 4 present sampling and reconstruction. The main contents of this chapter include all of the following: Periodic sampling, frequency domain representation, reconstruction, changing the sampling rate using discretetime processing.

18 p vaa 30/05/2018 328 1

• Lecture 8 - FIR Filter Design include all of the following content: FIR filter design, commonly used windows, generalized linear-phase FIR filter, the Kaiser window filter design method.

16 p vaa 30/05/2018 297 1

• Lecture 6 - System structures for implementation presents the following content: Block diagram representation of computational structures, signal flow graph description, basic structures for IIR systems, transposed forms, basic structures for FIR systems.

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• The main contents of this chapter include all of the following: Direct computation of the DFT, decimation-in-time FFT algorithms, decimation-in-frequency FFT algorithms, fourier analysis of signals using the DFT.

15 p vaa 30/05/2018 339 1

• Chapter 3 introduce the z-transform. This chapter presents the following content: z-transform, properties of the ROC, inverse z-transform, properties of z-transform.

20 p vaa 30/05/2018 303 1

• Lecture Signal processing: The discrete fourier transform include all of the following content: Computational fourier analysis, the discrete fourier transform, sampling the discrete – time fourier transform, properties of the discrete fourier transform,... and another content.

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• Lecture Digital signal processing - Lecture 1 introduction, discrete-time signals and systems. After completing this chapter, students will be able: To make the students able to apply digital filters according to known filter specifications, to provide the knowledge about the principles behind the discrete Fourier transform (DFT) and its fast computation,...

23 p vaa 30/05/2018 332 1

• In this lecture you will learn: System impulse response, linear constant-coefficient difference equations, fourier transforms and frequency response. Inviting you refer.

20 p vaa 30/05/2018 333 1

• "Lesson Gas turbine fundamentels" present the content introduction to aircraft engines; gas turbine engines for aircraft; principles of jet propulsion; the thrust force; what is thrust; environmental effects on thrust; operat ion of a gas turbine engine...

135 p vaa 04/11/2020 142 1

• In this chapter include all of the following: Sinusoidal response of LTI systems, response of LTI systems in the frequency domain, distortion of signals passing through LTI systems, ideal and practical filters, frequency response for rational system functions, dependency of frequency response on poles and zeros,...

113 p vaa 30/05/2018 287 1

• Lecture Digital signal processing - Lecture 7 presents the following content: Filter design, IIR filter design, analog filter design, IIR filter design by impulse invariance, IIR filter design by bilinear transformation.

21 p vaa 30/05/2018 304 1