Difference between revisions of "Theory of Stochastic Signals"
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| + | ===Brief summary=== | ||
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| + | {{BlueBox|TEXT=The book focuses on the mathematical description of typical signals in Communications Engineering;, which can be done alternatively in the time or frequency domain: | ||
| + | # Components of communication systems and classification of different signals. | ||
| + | # The Fourier series for the description of periodic signals with the special case "harmonic oscillation" and the limiting case "direct current signal". | ||
| + | # The laws of the Fourier transform for describing aperiodic $($impulsive$)$ signals and their spectra; first and second Fourier integral. | ||
| + | # Peculiarities of band-pass signals and their description by the analytic signal and the equivalent low-pass signal. | ||
| + | # Discrete Fourier transform for the description of discrete-time signals; application for spectral analysis; FFT as an efficient computer implementation. | ||
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| + | The spectral transforms $($Laplace transform, z-transform, Hilbert transform$)$ applicable exclusively to causal signals and systems are not treated in this book. Here we refer to the book [[Lineare_zeitinvariante_Systeme|"Linear and Time Invariant Systems"]]. | ||
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| + | ⇒ First a »'''content overview'''« on the basis of the »'''five main chapters'''« with a total of »'''19 individual chapters'''« and »'''127 sections'''«.}} | ||
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This third book of our learning tutorial deals in detail with stochastic signals and their modeling. | This third book of our learning tutorial deals in detail with stochastic signals and their modeling. | ||
*Knowledge of $\text{stochastic signal theory}$ is an important prerequisite for understanding the following books, which focus on transmission aspects. | *Knowledge of $\text{stochastic signal theory}$ is an important prerequisite for understanding the following books, which focus on transmission aspects. | ||
Revision as of 17:24, 1 March 2023
Brief summary
The book focuses on the mathematical description of typical signals in Communications Engineering;, which can be done alternatively in the time or frequency domain:
- Components of communication systems and classification of different signals.
- The Fourier series for the description of periodic signals with the special case "harmonic oscillation" and the limiting case "direct current signal".
- The laws of the Fourier transform for describing aperiodic $($impulsive$)$ signals and their spectra; first and second Fourier integral.
- Peculiarities of band-pass signals and their description by the analytic signal and the equivalent low-pass signal.
- Discrete Fourier transform for the description of discrete-time signals; application for spectral analysis; FFT as an efficient computer implementation.
The spectral transforms $($Laplace transform, z-transform, Hilbert transform$)$ applicable exclusively to causal signals and systems are not treated in this book. Here we refer to the book "Linear and Time Invariant Systems".
⇒ First a »content overview« on the basis of the »five main chapters« with a total of »19 individual chapters« and »127 sections«.
This third book of our learning tutorial deals in detail with stochastic signals and their modeling.
- Knowledge of $\text{stochastic signal theory}$ is an important prerequisite for understanding the following books, which focus on transmission aspects.
- Knowledge of the first two $\text{LNTwww}$ books, which include the representation of $\text{ deterministic signals}$ and the description of $\text{LTI systems}$ ⇒ "linear and time-invariant systems" is helpful for understanding this book, but not required.
Here first a »content overview« on the basis of the »five main chapters« with a total of »28 individual chapters«:
Content
In addition to these theory pages, we also offer tasks and multimedia modules on this topic, which could help to clarify the teaching material:
$\text{Other links:}$
$(1)$ $\text{Bibliography to the book}$
$(2)$ $\text{General notes about the book}$ (authors, other participants, materials as a starting point for the book, list of sources)
