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4: Signal Processing

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Page ID: 137364

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Learning Objectives

Introduce the continuous-time analog signal and its frequency analysis using Laplace transforms.
Discuss discrete-time digital signal and its frequency analysis using both discrete Fourier transforms (DFT) and fast Fourier transforms (FFT). In addition, be familiar with the discrete-time \(z\)-transform of signal and discrete-time system models in \(z\)-transform that is important for digital filter and controller design.
Define signal conversions between analog and digital signals, along with realization hardware for analog-to-digital (A/D) and digital-to-analog (D/A) converters. Understand data conversion between binary and decimal numbers. For graduate-level courses, provide the single and double precision floating-point representation in microprocessors.
Describe low-pass, high-pass, band-pass, and band-kill (notch) filter design for both analog and digital signals. Also describe their implementation and characteristics.
Introduce Nyquist-Shannon sample theory, sample aliasing, and anti-aliasing filter design.
Define the digital interface between the physical and information domains using pulse-train signals such as pulse-width-modulation and frequency modulation methods.
Introduce advanced filter design such as moving average, Chebyshev, and Butterworth filters.

This chapter introduces the concepts of signal processing in mechatronic systems, including analog-to-digital and digital-to-analog conversions; analog and digital signal frequency responses; low-pass, high-pass, band-pass, and band-kill (notch) filtering; Nyquist-Shannon sample theory; anti-aliasing filtering; and certain advanced filtering techniques.

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