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• Digital Filters
  ...\rm (FIR$,  ''Finite Impulse Response''$)$  as well as recursive filters $\rm (IIR$,  ''Infinite Impulse Response''$)$. [[File:P_ID552__Sto_T_5_2_S1_neu.png|right |frame| Block diagram of a digital (IIR–) filter $M$–order]]
  25 KB (3,574 words) - 18:44, 26 April 2023
• Theory of Stochastic Signals/Digital Filters
  [[File:P_ID552__Sto_T_5_2_S1_neu.png |right|frame| Block diagram of a digital filter]] The applet  [[Applets:Digital_Filters|"Digital Filters"]] illustrates the subject matter of this chapter.
  7 KB (1,030 words) - 14:39, 18 January 2023

Page text matches

• Theory of Stochastic Signals/Digitale Filter
  #REDIRECT [[Theory of Stochastic Signals/Digital Filters]]
  58 bytes (7 words) - 16:50, 13 October 2020
• Exercise 5.3: 1st order Digital Filter
  [[File:P_ID607__Sto_A_5_3.png|right|frame|First order digital filter]] ...o the chapter  [[Theory_of_Stochastic_Signals/Digital_Filters|Digital Filters]].
  5 KB (716 words) - 19:00, 10 February 2022
• Exercise 5.4: Sine Wave Generator
  ...al filter suitable for generating a discrete-time sinusoidal function on a digital signal processor  $\rm (DSP)$,  for example: ...the chapter   [[Theory_of_Stochastic_Signals/Digital_Filters|Digital Filters]]  in this book.
  5 KB (713 words) - 19:53, 10 February 2022
• Exercise 5.3Z: Non-Recursive Filter
  ...o the chapter  [[Theory_of_Stochastic_Signals/Digital_Filters|Digital Filters]] in this book. *The HTML5/JavaScript applet  [[Applets:Digital_Filters|"Digital Filters"]]  illustrates the subject matter of this chapter.
  6 KB (829 words) - 19:16, 10 February 2022
• Theory of Stochastic Signals
  ...  ⇒   »Stochastic System Theory«;  digital filters;  properties of matched filter and Wiener–Kolmogorov filter. *[[/Digital Filters/]]
  4 KB (460 words) - 13:24, 3 April 2023
• Exercise 1.5: Reconstruction of the Jakes Spectrum
  ...ement between transmitter and receiver in a system simulation, two digital filters are inserted in the  [[Mobile_Communications/Probability_Density_of_Ra The dimensioning of these filters is part of this task.
  6 KB (965 words) - 13:41, 17 February 2022
• Applets to "Channel Coding"
  #  [[Applets:Digital_Filters|Digital Filters]] ...it von Digitalsystemen]]   ⇒   "Symbol error probability of digital communications systems"
  3 KB (412 words) - 17:01, 23 March 2023
• Applets to "Mobile Communications"
  #  [[Applets:Digital_Filters|Digital Filters]]
  3 KB (387 words) - 18:45, 3 February 2023
• Theory of Stochastic Signals/Digital Filters
  [[File:P_ID552__Sto_T_5_2_S1_neu.png |right|frame| Block diagram of a digital filter]] The applet  [[Applets:Digital_Filters|"Digital Filters"]] illustrates the subject matter of this chapter.
  7 KB (1,030 words) - 14:39, 18 January 2023
• Applets to "Theory of Stochastic Signals"
  #  [[Applets:Digital_Filters|Digital Filters]]
  3 KB (388 words) - 15:28, 8 March 2023
• Exercise 2.12: Non-coherent Demodulation
  ... $\rm LP_2$  denote two ideal  (rectangular)  low-pass filters,  each with cutoff frequency equal to the carrier frequency  $f_{ We consider as (digital) source signals:
  5 KB (819 words) - 14:46, 17 November 2022
• Exercise 5.5: ACF-equivalent Filters
  [[File:P_ID558__Sto_A_5_5_neu.png|right|frame|Two ACF–equivalent filters]] We consider the two digital filters outlined:
  6 KB (922 words) - 17:18, 17 February 2022
• Channel Coding/Algebraic and Polynomial Description
  == GF(2) description forms of a digital filter == [[File:EN_KC_T_3_2_S4.png|right|frame|Digital filter in  ${\rm GF}(2)$  of order  $m$|class=fit]]
  41 KB (5,999 words) - 19:50, 2 December 2022
• Literaturempfehlung zu Stochastische Signaltheorie
  *Jackson, L. B.: Digital filters and signal processing. With MATLAB exercises. Boston: Kluwer Academic Publi
  3 KB (349 words) - 15:40, 8 November 2019
• Applets
  #  [[Applets:Digital_Filters|Digital Filters]] ...; [[Applets:Capacity_of_Memoryless_Digital_Channels|Capacity of Memoryless Digital Channels]]
  25 KB (3,084 words) - 17:14, 6 June 2023
• Digital Filters
  ...\rm (FIR$,  ''Finite Impulse Response''$)$  as well as recursive filters $\rm (IIR$,  ''Infinite Impulse Response''$)$. [[File:P_ID552__Sto_T_5_2_S1_neu.png|right |frame| Block diagram of a digital (IIR–) filter $M$–order]]
  25 KB (3,574 words) - 18:44, 26 April 2023
• Biographies and Bibliographies/Letters I - L
  *Jackson, L.B.: Digital Filters and Signal Processing. Boston: Kluwer, 1986. *Jayant, N.S.; Noll, P.: Digital Coding of Waveforms. Englewood Cliffs, New Jersey: Prentice Hall, 1984.
  6 KB (801 words) - 18:16, 27 July 2023
• Exercise 1.6Z: Two Optimal Systems
  {Which statements are true for the receiver filters of systems  $\rm A$  and  $\rm B$? [[Category:Digital Signal Transmission: Exercises|^1.4 Optimization of Baseband Systems^]]
  6 KB (913 words) - 11:24, 4 May 2022
• Modulation Methods/Tasks and Classification
  ...apter of the book  "Modulation Methods",  two examples of modern digital modulation methods are discussed,  namely   '''»CDM«' ...s more than the currently permissible bandwidth  $B/K$  and that filters with arbitrarily steep edges are also available for channel separation.&nbs
  13 KB (1,929 words) - 17:11, 19 January 2023
• Bibliography to "Theory of Stochastic Signals"
  *Jackson, L. B.: Digital filters and signal processing. With MATLAB exercises. Boston: Kluwer Academic Publi
  4 KB (576 words) - 16:35, 26 March 2023

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