Learn principles and techniques of signal processing in linear, time-invariant (LTI) systems. Covers continuous-time and discrete-time signals and systems, sampling, filter design. Free, interactive course.
Summary
This course gives an introduction to the concepts, mathematics, principles and techniques of signal processing in linear, time-invariant (LTI) systems. The course covers analysis methods for both continuous-time and discrete-time signals and systems, presents sampling and gives an elementary introduction to filter design. Many everyday signal processing examples are included. The concepts and methods of signals and systems presented here play an important role in many areas of science and engineering, and therefore the course should be of interest to a broad range of students.
Featured Products & Technologies: Wolfram Language (available in Mathematica and Wolfram|One)
You'll Learn To
Perform basic operations on elementary signals and sequences
Work with LTI systems and understand their properties
Work with differential and difference equation models of LTI systems
Obtain system responses using convolution integrals and sums
Gain insight into signals and systems through Fourier analysis
Use Laplace and z-transforms to analyze systems and solve differential and difference equations
Understand continuous-time sampling and the related concept of aliasing
Design digital filters using the bilinear transformation and the window method
Summary
This course gives an introduction to the concepts, mathematics, principles and techniques of signal processing in linear, time-invariant (LTI) systems. The course covers analysis methods for both continuous-time and discrete-time signals and systems, presents sampling and gives an elementary introduction to filter design. Many everyday signal processing examples are included. The concepts and methods of signals and systems presented here play an important role in many areas of science and engineering, and therefore the course should be of interest to a broad range of students.
Featured Products & Technologies: Wolfram Language (available in Mathematica and Wolfram|One)
You'll Learn To
Perform basic operations on elementary signals and sequences
Work with LTI systems and understand their properties
Work with differential and difference equation models of LTI systems
Obtain system responses using convolution integrals and sums
Gain insight into signals and systems through Fourier analysis
Use Laplace and z-transforms to analyze systems and solve differential and difference equations
Understand continuous-time sampling and the related concept of aliasing
Design digital filters using the bilinear transformation and the window method
