Difference between revisions of "LNTwww:Applets to "Channel Coding""

From LNTwww
(Created page with " $\text{Applets - based on HTML 5 and Java Script}$:  #  Attenuation of Copper Cables #  Applets:Binomial_and_Pois...")
 
Line 2: Line 2:
 
$\text{Applets - based on HTML 5 and Java Script}$:    
 
$\text{Applets - based on HTML 5 and Java Script}$:    
  
#  [[Applets:Attenuation_of_Copper_Cables|Attenuation of Copper Cables]]
 
 
#  [[Applets:Binomial_and_Poisson_Distribution_(Applet)|Binomial and Poisson Distribution]]
 
#  [[Applets:Binomial_and_Poisson_Distribution_(Applet)|Binomial and Poisson Distribution]]
#  [[Applets:Coherent_and_Non-Coherent_On-Off_Keying|Coherent and Non-Coherent On-Off Keying]]
+
#  [[Applets:Complementary_Gaussian_Error_Functions|Complementary Gaussian Error Functions]]
#  [[Applets:Complementary_Gaussian_Error_Functions|Complementary Gaussian Error Functions]]  
+
#  [[Applets:Digital_Filters|Digital Filters]]
#  [[Applets:Eye_Pattern_and_Worst-Case_Error_Probability|Eye Pattern and Worst-Case Error Probability]]
+
#  [[Applets:Discrete_Fouriertransform_and_Inverse|Discrete Fouriertransform and Inverse]]
#  [[Applets:Frequency_&_Impulse_Responses|Frequency & Impulse Responses]]
+
#  [[Applets:Graphical_Convolution|Graphical Convolution]]  
#  [https://www.lntwww.de/Applets:Das_Gram-Schmidt-Verfahren Gram–Schmidt process]   (German language)
+
#  [[Applets:PDF,_CDF_and_Moments_of_Special_Distributions|PDF, CDF, and Moments of Special Distributions]]
#  [[Applets:Graphical_Convolution|Graphical Convolution]]
+
 
#  [[Applets:Matched_Filter_Properties|Matched Filter Properties]]
 
#  [[Applets:Principle_of_Pseudo-Ternary_Coding|Principle of Pseudo-Ternary Coding]]
 
#  [[Applets:Principle_of_4B3T_Coding|Principle of 4B3T Coding]]
 
#  [[Applets:Pulses_and_Spectra|Pulses and Spectra]]
 
#  [[Applets:Sampling_of_Analog_Signals_and_Signal_Reconstruction|Sampling of Analog Signals and Signal Reconstruction]]  
 
#  [[Applets:Two-dimensional_Gaussian_Random_Variables|Two-dimensional Gaussian Random Variables]]
 
  
 
{{BlaueBox|TEXT=   
 
{{BlaueBox|TEXT=   
Line 26: Line 19:
 
$\text{Applets - based on Shockwave Flash (SWF)}$;      $\text{Language: German}$: 
 
$\text{Applets - based on Shockwave Flash (SWF)}$;      $\text{Language: German}$: 
  
#  [[Applets:Bandbegrenzung|Einfluss einer Bandbegrenzung auf Sprache und Musik]]   ⇒   "Influence of a band limitation on speech and music"
+
#  [[Applets:Gram-Schmidt-Verfahren|Gram-Schmidt-Verfahren]]   ⇒   "Gram-Schmidt method"  
#  [[Applets:Entscheidungsrückkopplung|Applets:Entscheidungsrückkopplung]]   ⇒   "Decision feedback equalization"
+
#  [[Applets:Korrelationskoeffizient_%26_Regressionsgerade|Korrelationskoeffizient & Regressionsgerade]]   ⇒   "Correlation coefficient and regression line"
#  [[Applets:Gram-Schmidt-Verfahren|Gram-Schmidt-Verfahren]]   ⇒   "Gram-Schmidt method"
 
#  [[Applets:Lineare_Nyquistentzerrung|Lineare Nyquistentzerrung]]   ⇒   "Linear Nyquist equalization"
 
 
#  [[Applets:MPSK_%26_Union-Bound(Applet)|Mehrstufige PSK & Union-Bound]]    ⇒   "Multi-stage PSK and Union Bound"
 
#  [[Applets:MPSK_%26_Union-Bound(Applet)|Mehrstufige PSK & Union-Bound]]    ⇒   "Multi-stage PSK and Union Bound"
#  [[Applets:Regionen|Optimale Entscheidungsregionen]]   ⇒   "Optimal decision regions"
 
#  [[Applets:Prinzip_der_Quadratur-Amplitudenmodulation_(Applet)|Prinzip der Quadratur–Amplitudenmodulation]]   ⇒   "Principle of Quadrature Amplitude Modulation"
 
 
#  [[Applets:Fehlerwahrscheinlichkeit|Symbolfehlerwahrscheinlichkeit von Digitalsystemen]]   ⇒   "Symbol error probability of digital communications systems"
 
#  [[Applets:Fehlerwahrscheinlichkeit|Symbolfehlerwahrscheinlichkeit von Digitalsystemen]]   ⇒   "Symbol error probability of digital communications systems"
 
#  [[Applets:Viterbi|Viterbi–Entscheider für einen Vorläufer]]   ⇒   "Viterbi decider for one precursor"
 
#  [[Applets:Viterbi|Viterbi–Entscheider für einen Vorläufer]]   ⇒   "Viterbi decider for one precursor"
#  [[Applets:Zeitverhalten_von_Kupferkabeln|Zeitverhalten von Kupferkabeln]]   ⇒   "Time behavior of copper cables"
+
}}
#  [[Applets:2D_Laplace_(SWF)|Zweidimensionale Laplaceverteilung]]   ⇒   "Two-dimensional Laplace distribution"
+
{{Collapse|ID=nachrbeisp|TITEL='''Applets about  "Examples of Communication Systems"|TEXT=
 +
#  [[Applets:Attenuation_of_Copper_Cables|Attenuation of Copper Cables]]
 +
#  [[Applets:Discrete_Fouriertransform_and_Inverse|Discrete Fouriertransform and Inverse]]
 +
#  [[Applets:The_Doppler_Effect|Doppler Effect]]
 +
#  [[Applets:Generation_of_Walsh_functions|Generation of Walsh functions]]  
 +
#  [[Applets:Principle_of_Pseudo-Ternary_Coding|Principle of Pseudo-Ternary Coding]]  
 +
#  [[Applets:Principle_of_4B3T_Coding|Principle of 4B3T Coding]]  
 +
#  [[Applets:Sampling_of_Analog_Signals_and_Signal_Reconstruction|Sampling of Analog Signals and Signal Reconstruction]]
 
   
 
   
 
{{BlaueBox|TEXT=   
 
{{BlaueBox|TEXT=   

Revision as of 12:50, 19 December 2022

$\text{Applets - based on HTML 5 and Java Script}$: 

  1.   Binomial and Poisson Distribution
  2.   Complementary Gaussian Error Functions
  3.   Digital Filters
  4.   Discrete Fouriertransform and Inverse
  5.   Graphical Convolution
  6.   PDF, CDF, and Moments of Special Distributions


$\text{Some hints and tips about the HTML5/JS applets:}$ 

  • After selecting the desired applet, a Wiki description page appears with a short summary of the content and an user interface.  At the beginning and end of this description page there are links to the actual HTML5 applet.
  • The HTML5/JS applets can be rendered by many browsers such as Firefox, Chrome and Safari, as well as smartphones and tablets.
  • The exercises and the solutions are integrated into the applet.


$\text{Applets - based on Shockwave Flash (SWF)}$;     $\text{Language: German}$: 

  1.   Gram-Schmidt-Verfahren   ⇒   "Gram-Schmidt method"
  2.   Korrelationskoeffizient & Regressionsgerade   ⇒   "Correlation coefficient and regression line"
  3.   Mehrstufige PSK & Union-Bound   ⇒   "Multi-stage PSK and Union Bound"
  4.   Symbolfehlerwahrscheinlichkeit von Digitalsystemen   ⇒   "Symbol error probability of digital communications systems"
  5.   Viterbi–Entscheider für einen Vorläufer   ⇒   "Viterbi decider for one precursor"

}} {{Collapse|ID=nachrbeisp|TITEL=Applets about  "Examples of Communication Systems"|TEXT=

  1.   Attenuation of Copper Cables
  2.   Discrete Fouriertransform and Inverse
  3.   Doppler Effect
  4.   Generation of Walsh functions  
  5.   Principle of Pseudo-Ternary Coding  
  6.   Principle of 4B3T Coding  
  7.   Sampling of Analog Signals and Signal Reconstruction

$\text{Some hints and tips about the SWF applets:}$ 

  • Our previous SWF applications were programmed for Adobe Flash.  Since the Flashplayer browser plugin is no longer supported for security reasons, these applets must be opened with the "projector version".  You do not need to install this program and it is not integrated into your browser, so there are no security concerns in that regard (as long as you trust LNTwww, of course).
  • On the wiki pages for the above SWF applets you can find the projector version of the flashplayer and of course the applet itself.  Unfortunately, these applets
    do not work on smartphones and tablets, the applet language is German, and the exercises integration is less comfortably than with the HTML5/JS applets.



Summary: This is a minor edit Watch this page

Please note that all contributions to LNTwww may be edited, altered, or removed by other contributors. If you do not want your writing to be edited mercilessly, then do not submit it here. You are also promising us that you wrote this yourself, or copied it from a public domain or similar free resource (see Copyrights for details). Do not submit copyrighted work without permission!

Template used on this page:

   What links here
   Related changes
   Upload file
   Special pages
   Page information
   Privacy policy About LNTwww Disclaimers 
   Powered by MediaWiki