Difference between revisions of "Linear and Time Invariant Systems"

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Beschrieben wird aufbauend auf dem Buch  [[Signaldarstellung|$\text{Signaldarstellung}$]], wie man den Einfluss eines Filters auf deterministische Signale mathematisch erfassen kann.
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===Brief summary===
*Das Buch definiert Verzerrungen und beschreibt die Laplace-Transformation für kausale Systeme sowie die Eigenschaften elektrischer Leitungen.
 
*Der Filtereinfluss auf ein Zufallssignal wird erst später im Kapitel 5 des Buches  [[Stochastische Signaltheorie|$\text{Stochastische Signaltheorie}$]]  behandelt.
 
  
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{{BlaueBox|TEXT=Based on the book  [[Signaldarstellung|»Signal Representation«]],  here it is described how to mathematically capture the influence of a filter on deterministic signals.
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# System theory analyses a quadripole  $($»system«$)$  using  »cause«   ⇒   $[$input   $ X(f)\ \bullet\!\!-\!\!\!-\!\!\!-\!\!\circ\,\ x(t)]$  and  »effect«   ⇒   $[$output  $ Y(f)\ \bullet\!\!-\!\!\!-\!\!\!-\!\!\circ\,\, y( t )]$. 
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# Indicator in frequency domain is the  »frequency response«  $ H(f)=Y(f)/X(f)$,  in time domain the  »impulse response»  $ h(t)$,  where  $ y(t)=x(t)\star h(t)$.
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# System distortions   ⇒   $ y(t)\ne K \cdot x(t - \tau)$;  distortion-free system:  output and input differ only by attenuation/gain and/or delay time.
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# Linear distortions $($possibly reversible$)$   ⇒   $ Y(f)=X(f)\cdot H(f)$;    non-linear distortions   ⇒   emergence of new frequencies  $($irreversible distortions$)$.
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# Peculiarities of causal systems &nbsp; &rArr; &nbsp; $ h(t<0)\equiv 0$;&nbsp; Hilbert transform,&nbsp; Laplace transform; inverse Laplace  transform &nbsp; &rArr; &nbsp; residue theorem.
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#Some results of line transmission theory;&nbsp; coaxial cable systems &nbsp; &rArr; &nbsp; "white noise";&nbsp; copper twisted pairs &nbsp; &rArr; &nbsp; dominant is&nbsp; "near-end crosstalk".
  
Der Lehrstoff entspricht einer&nbsp; $\text{Vorlesung mit zwei Semesterwochenstunden (SWS) und einer weiteren SWS Übungen}$.
 
  
Hier zunächst eine Inhaltsübersicht anhand derder&nbsp; $\text{vier Hauptkapitel}$&nbsp; mit insgesamt&nbsp; $\text{zwölf Einzelkapiteln}$.  
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The filter influence on a random signal is only dealt with in the last chapter of the book &nbsp;[[Theory_of_Stochastic_Signals|&raquo;Theory of Stochastic Signals&laquo;]].
  
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&rArr; &nbsp; First the&nbsp; &raquo;'''content overview'''&laquo;&nbsp; on the basis of the&nbsp; &raquo;'''four main chapters'''&laquo;&nbsp; with a total of&nbsp; &raquo;'''twelve individual chapters'''&laquo;&nbsp; and&nbsp; &raquo;'''93 sections'''&laquo;.}}
  
===Inhalt===
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===Contents===
 
{{Collapsible-Kopf}}
 
{{Collapsible-Kopf}}
 
{{Collapse1| header= Basics of System Theory
 
{{Collapse1| header= Basics of System Theory
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*[[/System Description in Frequency Domain/]]
 
*[[/System Description in Frequency Domain/]]
 
*[[/System Description in Time Domain/]]
 
*[[/System Description in Time Domain/]]
*[[/Some Low Pass Functions in System Theory/]]
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*[[/Some Low-Pass Functions in Systems Theory/]]
 
}}
 
}}
 
{{Collapse2 | header=Signal Distortion and Equalization
 
{{Collapse2 | header=Signal Distortion and Equalization
 
|submenu=
 
|submenu=
 
*[[/Classification of the Distortions/]]
 
*[[/Classification of the Distortions/]]
*[[/Nonlinear Distortion/]]
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*[[/Nonlinear Distortions/]]
 
*[[/Linear Distortions/]]
 
*[[/Linear Distortions/]]
 
}}
 
}}
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|submenu=
 
|submenu=
 
*[[/Conclusions from the Allocation Theorem/]]
 
*[[/Conclusions from the Allocation Theorem/]]
*[[/Laplace Transform and P-Transfer Function/]]
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*[[/Laplace Transform and p-Transfer Function/]]
 
*[[/Inverse Laplace Transform/]]
 
*[[/Inverse Laplace Transform/]]
 
}}
 
}}
 
{{Collapse4 | header=Properties of Electrical Cables
 
{{Collapse4 | header=Properties of Electrical Cables
 
|submenu=
 
|submenu=
*[[/Some Results from Transmission Line Theory/]]
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*[[/Some Results from Line Transmission Theory/]]  
 
*[[/Properties of Coaxial Cables/]]
 
*[[/Properties of Coaxial Cables/]]
*[[/Properties of Balanced Copper Pairs/]]
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*[[/Properties of Balanced Copper Pairs/]]  
 
}}
 
}}
 
{{Collapsible-Fuß}}
 
{{Collapsible-Fuß}}
  
Neben diesen Theorieseiten bieten wir zu diesem Thema auch Aufgaben und multimediale Module an, die zur Verdeutlichung des Lehrstoffes beitragen könnten:
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===Exercises and multimedia===
*[https://en.lntwww.de/Category:Linear_and_Time-Invariant_Systems:_Exercises  $\text{Exercises}$]
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*[[LNTwww:Lernvideos_zu_Lineare_zeitinvariante_Systeme|$\text{Lernvideos}$]]
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{{BlaueBox|TEXT=
*[[LNTwww:HTML5-Applets_zu_Lineare_zeitinvariante_Systeme|$\text{neu gestaltete Applets}$]]&nbsp; (basierend auf HTML5 und JavaScript, auch auf Smartphones lauffähig)
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In addition to these theory pages,&nbsp; we also offer exercises and multimedia modules on this topic,&nbsp; which could help to clarify the teaching material:
*[[LNTwww:SWF-Applets_zu_Lineare_zeitinvariante_Systeme|$\text{frühere Applets}$]]&nbsp; (basierend auf SWF, lauffähig nur unter WINDOWS mit &bdquo;Adobe Flash Player&bdquo;)
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$(1)$&nbsp; &nbsp; [https://en.lntwww.de/Category:Linear_and_Time-Invariant_Systems:_Exercises  $\text{Exercises}$]
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$(2)$&nbsp; &nbsp; [[LNTwww:Learning_Videos_to_Linear_and_Time_Invariant_Systems|$\text{Learning videos}$]]
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$(3)$&nbsp; &nbsp; [[LNTwww:LNTwww:Applets_to_"Linear_and_Time_Invariant_Systems"|$\text{Applets}$]]}}
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===Further links===
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{{BlaueBox|TEXT=
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$(4)$&nbsp; &nbsp; [[LNTwww:Bibliography_to_"Linear_and_Time_Invariant_Systems"|$\text{Bibliography}$]]
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$(5)$&nbsp; &nbsp; [[LNTwww:Imprint_for_the_book_"Linear_and_Time_Invariant_Systems"|$\text{Impressum}$]] }}
 
<br><br>
 
<br><br>
$\text{Weitere Links:}$
 
<br><br>
 
$(1)$&nbsp; &nbsp; [[LNTwww:Literaturempfehlung_zu_Lineare_zeitinvariante_Systeme|$\text{Literaturempfehlungen zum Buch}$]]
 
  
$(2)$&nbsp; &nbsp; [[LNTwww:Weitere_Hinweise_zum_Buch_Lineare_zeitinvariante_Systeme|$\text{Allgemeine Hinweise zum Buch}$]] &nbsp; (Autoren,&nbsp; Weitere Beteiligte,&nbsp; Materialien als Ausgangspunkt des Buches,&nbsp; Quellenverzeichnis)
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{{Display}}
 
{{Display}}

Latest revision as of 17:38, 1 November 2023

Brief summary

Based on the book  »Signal Representation«,  here it is described how to mathematically capture the influence of a filter on deterministic signals.

  1. System theory analyses a quadripole  $($»system«$)$  using  »cause«   ⇒   $[$input   $ X(f)\ \bullet\!\!-\!\!\!-\!\!\!-\!\!\circ\,\ x(t)]$  and  »effect«   ⇒   $[$output  $ Y(f)\ \bullet\!\!-\!\!\!-\!\!\!-\!\!\circ\,\, y( t )]$.
  2. Indicator in frequency domain is the  »frequency response«  $ H(f)=Y(f)/X(f)$,  in time domain the  »impulse response»  $ h(t)$,  where  $ y(t)=x(t)\star h(t)$.
  3. System distortions   ⇒   $ y(t)\ne K \cdot x(t - \tau)$;  distortion-free system:  output and input differ only by attenuation/gain and/or delay time.
  4. Linear distortions $($possibly reversible$)$   ⇒   $ Y(f)=X(f)\cdot H(f)$;   non-linear distortions   ⇒   emergence of new frequencies  $($irreversible distortions$)$.
  5. Peculiarities of causal systems   ⇒   $ h(t<0)\equiv 0$;  Hilbert transform,  Laplace transform; inverse Laplace transform   ⇒   residue theorem.
  6. Some results of line transmission theory;  coaxial cable systems   ⇒   "white noise";  copper twisted pairs   ⇒   dominant is  "near-end crosstalk".


The filter influence on a random signal is only dealt with in the last chapter of the book  »Theory of Stochastic Signals«.

⇒   First the  »content overview«  on the basis of the  »four main chapters«  with a total of  »twelve individual chapters«  and  »93 sections«.


Contents

Exercises and multimedia

In addition to these theory pages,  we also offer exercises and multimedia modules on this topic,  which could help to clarify the teaching material:

$(1)$    $\text{Exercises}$

$(2)$    $\text{Learning videos}$

$(3)$    $\text{Applets}$


Further links