Continuous and discrete signals and systems
This complete introductory book assists readers in developing the ability to understand and analyze both continuous and discrete-time systems. The author presents the most widely used techniques of signal and system analysis in a highly readable and understandable fashion. For anyone interested in Signals & Systems, and Transform Theory.
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aliasing amplitude analog signal approximation bandwidth bilateral Laplace transform Butterworth filter causal Chapter Chebyshev filter circuit complex exponentials complex numbers components computation continuous-time signal continuous-time system corresponding defined denote determine difference equation differential equation digital filter discrete-time Fourier transform discrete-time signal discrete-time systems energy equivalent Example exp[Ar factor Find the impulse finite follows Fourier-series coefficients frequency domain frequency response given harmonic impulse response input x(t integral interval low-pass filter LTI system magnitude spectrum matrix multiplying obtain orthogonal output partial-fraction passband periodic convolution periodic with period phase plane poles polynomial pulse quantizer rectangular region of convergence result sampled signal Section sequence x(n shift shown in Figure shows side of Equation signals and systems simulation diagram solution spectra state-variable stop band system described system with impulse theorem tion transfer function unit step values variable voltage waveform xa(t yields Z-transform zero