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  1. Exercise 2.1: ACF and PSD with Coding‏‎ (2 links)
  2. Exercise 1.4Z: Representation of Oscillations‏‎ (2 links)
  3. Exercise 3.2Z: Two-dimensional Probability Mass Function‏‎ (2 links)
  4. Exercise 3.9: Further Developments of UMTS‏‎ (2 links)
  5. Exercise 3.8: Triple Convolution‏‎ (2 links)
  6. Exercise 3.5: Triangular and Trapezoidal Signal‏‎ (2 links)
  7. Exercise 5.4Z: OVSF Codes‏‎ (2 links)
  8. Linear and Time Invariant Systems/Klassifizierung der Verzerrungen‏‎ (2 links)
  9. Exercise 2.6Z: 4B3T Code according to Jessop and Waters‏‎ (2 links)
  10. General notes about "Information Theory"‏‎ (2 links)
  11. Exercise 2.3Z: DSB-AM due to Nonlinearity‏‎ (2 links)
  12. Exercise 1.2: Bit Error Rate‏‎ (2 links)
  13. Exercise 3.7: Some Entropy Calculations‏‎ (2 links)
  14. Exercise 4.3Z: Multiple-Access Methods in LTE‏‎ (2 links)
  15. Exercise 1.1: For Labeling Books‏‎ (2 links)
  16. Benedikt Leible‏‎ (2 links)
  17. Applets to "Information Theory"‏‎ (2 links)
  18. Exercise 3.7Z: Error Performance‏‎ (2 links)
  19. Aufgabe 3.6: Zustandsübergangsdiagramm‏‎ (2 links)
  20. Exercise 2.7Z: DSB-AM and Envelope Demodulator‏‎ (2 links)
  21. Exercise 4.6Z: Locality Curve for Phase Modulation‏‎ (2 links)
  22. Exercise 1.6: Root Nyquist System‏‎ (2 links)
  23. Modulation Methods/Weitere OFDM–Anwendungen‏‎ (2 links)
  24. Exercise 1.2: ISDN and PCM‏‎ (2 links)
  25. 3.2Z 2D–Wahrscheinlichkeitsfunktion‏‎ (2 links)
  26. Exercise 2.4: 2-D Transfer Function‏‎ (2 links)
  27. Exercise 1.2: Entropy of Ternary Sources‏‎ (2 links)
  28. Exercise 3.10: Rayleigh Fading‏‎ (2 links)
  29. Exercise 2.1: Rectifying‏‎ (2 links)
  30. Channel Coding/Distance Characteristics and Error Probability Boundss‏‎ (2 links)
  31. Lernvideos zu Signaldarstellung‏‎ (2 links)
  32. Exercise 3.1: Causality Considerations‏‎ (2 links)
  33. Exercise 3.4: Optimization of the Cutoff Frequency‏‎ (2 links)
  34. Exercise 2.13: Quadrature Amplitude Modulation‏‎ (2 links)
  35. Aufgabe 3.11Z: Extrem unsymmetrischer Kanal‏‎ (2 links)
  36. Exercise 3.15: Data Processing Theorem‏‎ (2 links)
  37. Exercise 1.5: SPC (5, 4) and BEC Model‏‎ (2 links)
  38. Exercise 1.5Z: Symmetrical Markov Source‏‎ (2 links)
  39. Exercise 4.3: Algebraic and Modulo Sum‏‎ (2 links)
  40. Exercise 4.1: Log Likelihood Ratio‏‎ (2 links)
  41. Downloads‏‎ (2 links)
  42. Exercise 5.3Z: Zero-Padding‏‎ (2 links)
  43. Exercise 4.4: Conventional Entropy and Differential Entropy‏‎ (2 links)
  44. Aufgabe 1.09: Erweiterter Hamming–Code‏‎ (2 links)
  45. Exercise 2.4Z: Repetition to IDFT‏‎ (2 links)
  46. Exercise 1.3: Rayleigh Fading‏‎ (2 links)
  47. Exercise 4.7: Weighted Sum and Difference‏‎ (2 links)
  48. Linear and Time Invariant Systems/Laplace–Rücktransformation‏‎ (2 links)
  49. Exercise 3.12: Trellis Diagram for Two Precursors‏‎ (2 links)
  50. Aufgabe 4.7: Decodierung von Produktcodes‏‎ (2 links)
  51. Exercise 3.10: Noise Power Calculation‏‎ (2 links)
  52. Beispiele von Nachrichtensystemen‏‎ (2 links)
  53. Exercise 4.7Z: About the Water Filling Algorithm‏‎ (2 links)
  54. Exercise 1.12Z: Comparison of HC (7, 4, 3) and HC (8, 4, 4)‏‎ (2 links)
  55. Exercise 3.2: GSM Services‏‎ (2 links)
  56. Exercise 2.1Z: 2D-Frequency and 2D-Time Representations‏‎ (2 links)
  57. Exercise 4.10Z: Correlation Duration‏‎ (2 links)
  58. Exercise 1.2Z: Puls-Code-Modulation‏‎ (2 links)
  59. Exercise 4.5Z: Impulse Response once again‏‎ (2 links)
  60. Exercise 4.10: Turbo Encoder for UMTS and LTE‏‎ (2 links)
  61. Exercise 4.3: Natural and Discrete Sampling‏‎ (2 links)
  62. Modulationsverfahren‏‎ (2 links)
  63. Mobile Communications/Distanzabhängige Dämpfung und Abschattung‏‎ (2 links)
  64. Exercise 2.5Z: Multi-Path Scenario‏‎ (2 links)
  65. Exercise 4.14Z: Echo Detection‏‎ (2 links)
  66. Exercises 2.3: Cosine and Sine Components‏‎ (2 links)
  67. Exercise 4.06: Optimal Decision Boundaries‏‎ (2 links)
  68. Exercise 1.5: Drawing Cards‏‎ (2 links)
  69. Applets Related to Signal Representation‏‎ (2 links)
  70. Aufgabe 4.8: Fehlerwahrscheinlichkeiten‏‎ (2 links)
  71. WDF, VTF und Momente spezieller Verteilungen (Applet)‏‎ (2 links)
  72. Mobile Communications/Multipath reception in mobile communications‏‎ (2 links)
  73. Exercise 4.10Z: Signal Space Constellation of the 16-QAM‏‎ (2 links)
  74. Exercise 5.1: Gaussian ACF and Gaussian Low-Pass‏‎ (2 links)
  75. Exercise 2.6Z: Magnitude and Phase‏‎ (2 links)
  76. Exercise 4.10: Union Bound‏‎ (2 links)
  77. Exercise 2.1Z: Different Signal Courses‏‎ (2 links)
  78. Aufgabe 4.11: Frequenzbereichsbetrachtung der 4–QAM‏‎ (2 links)
  79. Exercise 1.2Z: Measurement of the Frequency Response‏‎ (2 links)
  80. Biographies and Bibliographies/Buchstaben U - X‏‎ (2 links)
  81. Exercise 4.7: To the Rake Receiver‏‎ (2 links)
  82. Signal Representation/General Description/Gleichsignal - Grenzfall eines periodischen Signals‏‎ (2 links)
  83. Exercise 2.10: Shannon-Fano Coding‏‎ (2 links)
  84. Exercise 3.4: Different Voice Codecs‏‎ (2 links)
  85. Aufgabe 5.6Z: Nochmals Filterdimensionierung‏‎ (2 links)
  86. Exercise 4.14Z: 4-QAM and 4-PSK‏‎ (2 links)
  87. Biografien und Bibliografien/Beteiligte der Professur Leitungsgebundene Übertragungstechnik‏‎ (2 links)
  88. Exercise 2.5: "Binomial" or "Poisson"?‏‎ (2 links)
  89. Linear and Time Invariant Systems/Folgerungen aus dem Zuordnungssatz‏‎ (2 links)
  90. Exercise 2.08Z: Addition and Multiplication in GF(2 power 3)‏‎ (2 links)
  91. Exercise 1.1: Multiplexing in the GSM System‏‎ (2 links)
  92. Modulation Methods/PN–Modulation‏‎ (2 links)
  93. Exercise 5.8: Matched Filter for Colored Interference‏‎ (2 links)
  94. Exercise 3.5Z: Integration of Dirac Functions‏‎ (2 links)
  95. Exercise 4.18Z: BER of Coherent and Non-Coherent FSK‏‎ (2 links)
  96. Learning videos to "Theory of Stochastic Signals"‏‎ (2 links)
  97. Exercise 5.2Z: About PN Modulation‏‎ (2 links)
  98. Exercise 1.8: Variable Edge Steepness‏‎ (2 links)
  99. Exercise 2.1Z: About the Equivalent Bitrate‏‎ (2 links)
  100. Exercise 3.3: Entropy of Ternary Quantities‏‎ (2 links)
  101. Exercise 3.8Z:Convolution of Two Rectangles‏‎ (2 links)
  102. Exercise 5.1: Error Distance Distribution‏‎ (2 links)
  103. Exercise 3.5Z: Antenna Areas‏‎ (2 links)
  104. Exercise 2.4Z: Characteristics Measurement‏‎ (2 links)
  105. Aufgabe 2.4: Frequenz– und Phasenversatz‏‎ (2 links)
  106. Exercise 1.2Z: Bit Error Measurement‏‎ (2 links)
  107. Exercise 3.8: Once more Mutual Information‏‎ (2 links)
  108. Examples of Communication Systems/Nachrichtentechnische Aspekte von UMTS‏‎ (2 links)
  109. Exercise 1.2: A Simple Binary Channel Code‏‎ (2 links)
  110. Theory of Stochastic Signals/Zweidimensionale Gaußsche Zufallsgrößen‏‎ (2 links)
  111. Bibliography to "Information Theory"‏‎ (2 links)
  112. 2.11 Hüllkurvendemodulation eines ESB-Signals‏‎ (2 links)
  113. Exercise 1.08: Identical Codes‏‎ (2 links)
  114. Aufgabe 3.6Z: Übergangsdiagramm bei 3 Zuständen‏‎ (2 links)
  115. Exercise 2.8: Asymmetrical Channel‏‎ (2 links)
  116. Exercise 1.6Z: Two Optimal Systems‏‎ (2 links)
  117. Exercise 4.3: Vector Diagram Representation‏‎ (2 links)
  118. 3.2 Erwartungswertberechnungen‏‎ (2 links)
  119. Theory of Stochastic Signals/Erwartungswerte und Momente‏‎ (2 links)
  120. Exercise 3.10Z: Rayleigh? Or Rice?‏‎ (2 links)
  121. Exercise 2.1Z: Sum Signal‏‎ (2 links)
  122. Exercise 5.9: Selection of OFDM Parameters‏‎ (2 links)
  123. Aufgabe 4.6Z: Grundlagen der Produktcodes‏‎ (2 links)
  124. Exercise 3.1Z: Hilbert Transform‏‎ (2 links)
  125. Exercise 3.10Z: Maximum Likelihood Decoding of Convolutional Codes‏‎ (2 links)
  126. Exercise 3.1: Phase Modulation Locus Curve‏‎ (2 links)
  127. Exercise 5.2Z: DFT of a Triangular Pulse‏‎ (2 links)
  128. Exercise 1.5Z: SPC (5, 4) vs. RC (5, 1)‏‎ (2 links)
  129. Exercise 1.6: Non-Binary Markov Sources‏‎ (2 links)
  130. Exercise 4.3Z: Dirac-shaped 2D PDF‏‎ (2 links)
  131. Aufgabe 4.8: Numerische Auswertung der AWGN-Kanalkapazität‏‎ (2 links)
  132. Exercise 3.5: Circuit with R, L and C‏‎ (2 links)
  133. Bibliography to "Mobile Communications"‏‎ (2 links)
  134. Exercise 4.1Z: Log Likelihood Ratio at the BEC Model‏‎ (2 links)
  135. Exercise 3.5Z: Application of the Residue Theorem‏‎ (2 links)
  136. Imprint for the book "Mobile Communications"‏‎ (2 links)
  137. Exercise 4.2: Channel Log Likelihood Ratio at AWGN‏‎ (2 links)
  138. Pulses & Spectra‏‎ (2 links)
  139. Aufgabe 1.09Z: Erweiterung und/oder Punktierung‏‎ (2 links)
  140. Authors‏‎ (2 links)
  141. Exercise 1.3Z: Rayleigh Fading Revisited‏‎ (2 links)
  142. Exercise 4.7Z: Generation of a joint PDF‏‎ (2 links)
  143. Aufgabe 4.2: Fehlangepasste Leitung‏‎ (2 links)
  144. Exercise 3.13: Threshold Decision vs. DFE vs. Maximum Liekelihood‏‎ (2 links)
  145. Exercise 3.10Z: Amplitude and Angle Modulation in Comparison‏‎ (2 links)
  146. Aufgabe 3.3: GSM–Rahmenstruktur‏‎ (2 links)
  147. Mobile Communications/Allgemeine Beschreibung zeitvarianter Systeme‏‎ (2 links)
  148. Exercise 4.2Z: Eight-level Phase Shift Keying‏‎ (2 links)
  149. Exercise 4.4: About the Quantization Noise‏‎ (2 links)
  150. Exercise 4.8: Numerical Analysis of the AWGN Channel Capacity‏‎ (2 links)
  151. Aufgabe 2.1: Gruppe, Ring, Körper‏‎ (2 links)
  152. Exercise 3.6: Adaptive Multi–Rate Codec‏‎ (2 links)
  153. Mobile Communications/Gemeinsamkeiten von GSM und UMTS‏‎ (2 links)
  154. Exercise 2.4Z: LZW Coding and Decoding again‏‎ (2 links)
  155. Exercise 2.6: Dimensions in GWSSUS‏‎ (2 links)
  156. Exercise 4.15: PDF and Correlation Matrix‏‎ (2 links)
  157. Dämpfung von Kupferkabeln (SWF)‏‎ (2 links)
  158. Information Theory/Nachrichtenquellen mit Gedächtnis‏‎ (2 links)
  159. Exercise 4.06Z: Signal Space Constellations‏‎ (2 links)
  160. Exercise 1.5Z: Probabilities of Default‏‎ (2 links)
  161. Bibliography to Signal Representation‏‎ (2 links)
  162. Aufgabe 4.8Z: BPSK–Fehlerwahrscheinlichkeit‏‎ (2 links)
  163. WDF und VTF bei Gaußschen 2D Zufallsgrößen (Applet)‏‎ (2 links)
  164. Exercise 4.3: UMTS Access Level‏‎ (2 links)
  165. Mobile Communications/History and development of mobile communication systems‏‎ (2 links)
  166. Exercise 2.8: Huffman Application for a Markov Source‏‎ (2 links)
  167. Exercise 4.10: Signal Waveforms of the 16-QAM‏‎ (2 links)
  168. Exercise 5.1Z: Cosine Square Noise Limitation‏‎ (2 links)
  169. Aufgabe 4.11Z: Fehlerwahrscheinlichkeit bei QAM‏‎ (2 links)
  170. Biographies and Bibliographies/Buchstaben Y - Z & Ziffern‏‎ (2 links)
  171. Exercise 2.5Z: Some Calculations about GF(2 power 3)‏‎ (2 links)
  172. Exercise 1.1: A Special Dice Game‏‎ (2 links)
  173. Modulation Methods/Nichtlineare digitale Modulation‏‎ (2 links)
  174. Exercise 3.4Z: GSM Full-Rate Voice Codec‏‎ (2 links)
  175. Exercise 5.5: ACF-Equivalent Filters‏‎ (2 links)
  176. Exercise 4.15: Optimal Signal Space Allocation‏‎ (2 links)
  177. Exercise 2.5Z: Flower Meadow‏‎ (2 links)
  178. Exercise 2.09: Reed–Solomon Parameters‏‎ (2 links)
  179. Theory of Stochastic Signals/Kreuzkorrelationsfunktion und Kreuzleistungsdichte‏‎ (2 links)
  180. Exercise 5.8Z: Matched Filter for Rectangular PSD‏‎ (2 links)
  181. Exercise 3.6: Even/Odd Time Signal‏‎ (2 links)
  182. Exercise 4.19: Orthogonal Multilevel FSK‏‎ (2 links)
  183. Exercise 1.8Z: Cosine-Square Low-Pass Filter‏‎ (2 links)
  184. Exercise 2.2: Binary Bipolar Rectangles‏‎ (2 links)
  185. Exercise 2.13: Decoding at RSC (7, 3, 5) to Base 8‏‎ (2 links)
  186. Exercise 3.4: Entropy for Different PMF‏‎ (2 links)
  187. Exercise 3.9: Convolution of Rectangle and Gaussian Pulse‏‎ (2 links)
  188. Imprint for the book "Channel Coding"‏‎ (2 links)
  189. Exercise 5.2: Error Correlation Function‏‎ (2 links)
  190. Exercise 2.7Z: Power-Spectral Density of Pseudo-Ternary Codes‏‎ (2 links)
  191. General notes about "Mobile Communications"‏‎ (2 links)
  192. Exercise 3.2Z: (3, 1, 3) Convolutional Encoder‏‎ (2 links)
  193. Aufgabe 2.4Z: Tiefpass-Einfluss bei Synchrondemodulation‏‎ (2 links)
  194. Exercise 1.3: Rectangular Functions for Transmitter and Receiver‏‎ (2 links)
  195. Exercise 4.4: Modulation in LTE‏‎ (2 links)
  196. General notes about "Examples of Communication Systems"‏‎ (2 links)
  197. Exercise 1.2Z: Three-dimensional Representation of Codes‏‎ (2 links)
  198. Imprint for the book "Information Theory"‏‎ (2 links)
  199. Digital Signal Transmission/Anwendungen bei Multimedia–Dateien‏‎ (2 links)
  200. Exercise 2.5: Distortion and Equalization‏‎ (2 links)
  201. Exercise 3.2Z: Optimum Cut-off Frequency for Gaussian Low-pass‏‎ (2 links)
  202. Aufgabe 3.7: Vergleich zweier Faltungscodierer‏‎ (2 links)
  203. Exercise 2.9: Symmetrical Distortions‏‎ (2 links)
  204. Exercise 1.7: System Efficiencies‏‎ (2 links)
  205. Exercise 3.10Z: BSC Channel Capacity‏‎ (2 links)
  206. Exercise 4.3Z: Hilbert Transformator‏‎ (2 links)
  207. Examples of Communication Systems/Sprachcodierung‏‎ (2 links)
  208. Exercise 3.11: Chebyshev's Inequality‏‎ (2 links)
  209. Exercise 3.5: Eye Opening with Pseudoternary Coding‏‎ (2 links)
  210. Exercise 3.1Z: Influence of the Message Phase in Phase Modulation‏‎ (2 links)
  211. Exercise 5.4: Comparison of Rectangular and Hanning Window‏‎ (2 links)
  212. Exercise 1.7: Coding for B-ISDN‏‎ (2 links)
  213. Exercise 1.6Z: Ternary Markov Source‏‎ (2 links)
  214. Exercise 1.1: Dual Slope Loss Model‏‎ (2 links)
  215. Aufgabe 4.Zehn: QPSK–Kanalkapazität‏‎ (2 links)
  216. Exercise 2.2: Direct Current Component of Signals‏‎ (2 links)
  217. Exercise 2.2Z: Nonlinearities‏‎ (2 links)
  218. Physikalisches Signal und Analytisches Signal‏‎ (2 links)
  219. Learning Videos to "Mobile Communications"‏‎ (2 links)
  220. Exercise 4.3: Iterative Decoding at the BSC‏‎ (2 links)
  221. Exercise 3.5: PM and FM for Rectangular Signals‏‎ (2 links)
  222. Aufgabe 1.10: Einige Generatormatrizen‏‎ (2 links)
  223. Exercise 2.5: DSL Error Protection‏‎ (2 links)
  224. Exercise 4.8: Diamond-shaped Joint PDF‏‎ (2 links)
  225. Exercise 1.1: Music Signals‏‎ (2 links)
  226. Exercise 4.1: Attenuation Function‏‎ (2 links)
  227. Modulation Methods/Allgemeines Modell der Modulation‏‎ (2 links)
  228. Exercise 3.11: Pre-Emphase and De-Emphase‏‎ (2 links)
  229. Signal Representation/Equivalent Low Pass Signal and Its Spectral Function‏‎ (2 links)
  230. Exercise 1.13Z: Binary Erasure Channel Decoding again‏‎ (2 links)
  231. Exercise 3.3: GSM Frame Structure‏‎ (2 links)
  232. Mobile Communications/Allgemeines zum Mobilfunkstandard LTE‏‎ (2 links)
  233. Exercise 4.2Z: Eight-step Phase Shift Keying‏‎ (2 links)
  234. Imprint for the book "Modulation Methods"‏‎ (2 links)
  235. Exercise 4.11: Analysis of Parity-check Matrices‏‎ (2 links)
  236. Exercise 4.4Z: Signal-to-Noise Ratio with PCM‏‎ (2 links)
  237. Exercise 4.8Z: What does the AWGN Channel Capacity Curve say?‏‎ (2 links)
  238. Exercise 3.7: GSM System Components‏‎ (2 links)
  239. Mobile Communications/Historie und Entwicklung der Mobilfunksysteme‏‎ (2 links)
  240. Exercise 2.5: Residual Redundancy with LZW Coding‏‎ (2 links)
  241. Exercise 4.15Z: Statements of the Covariance Matrix‏‎ (2 links)
  242. Theory of Stochastic Signals/Autokorrelationsfunktion (AKF)‏‎ (2 links)
  243. Exercise 1.6: Transition Probabilities‏‎ (2 links)
  244. Exercise 1.4: Rayleigh PDF and Jakes PDS‏‎ (2 links)
  245. Exercise 4.4: Cellular UMTS Architecture‏‎ (2 links)
  246. Mobile Communications/Similarities of GSM and UMTS‏‎ (2 links)
  247. Exercise 2.9: Huffman Decoding after Errors‏‎ (2 links)
  248. Exercise 5.2Z: Two-Way Channel‏‎ (2 links)
  249. Exercise 2.2: Multi-Level Signals‏‎ (2 links)
  250. Exercise 1.3: Measured Step Response‏‎ (2 links)
  251. Exercise 2.6: GF(P power m). Which P, which m?‏‎ (2 links)
  252. Exercise 1.1Z: Sum of Two Ternary Signals‏‎ (2 links)
  253. Exercise 4.16: Binary Frequency Shift Keying‏‎ (2 links)
  254. Exercise 2.6Z: PN Generator of Length 3‏‎ (2 links)
  255. Exercise 1.5: Rectangular-in-Frequency Low-Pass Filter‏‎ (2 links)
  256. Channel Coding/Einige Grundlagen der Algebra‏‎ (2 links)
  257. Exercise 2.10: Reed-Solomon Fault Detection‏‎ (2 links)
  258. Exercise 3.6: FDMA, TDMA and CDMA‏‎ (2 links)
  259. Exercise 3.6Z: Complex Exponential Function‏‎ (2 links)
  260. Exercise 3.2: CDF for Exercise 3.1‏‎ (2 links)
  261. Modulation Methods/Fehlerwahrscheinlichkeit der PN–Modulation‏‎ (2 links)
  262. Exercise 2.1: Linear? Or Non-Linear?‏‎ (2 links)
  263. Exercise 2.3: Binary Signal and Quaternary Signal‏‎ (2 links)
  264. Exercise 2.14: Petersen Algorithm‏‎ (2 links)
  265. Exercise 2.1: DSB-AM with Cosine? Or with Sine?‏‎ (2 links)
  266. Exercise 3.5Z: Kullback-Leibler Distance again‏‎ (2 links)
  267. Exercise 3.9Z: Convolution of Gaussian Pulses‏‎ (2 links)
  268. Exercise 5.3: AWGN and BSC Model‏‎ (2 links)
  269. Exercise 5.5: Multi-User Interference‏‎ (2 links)
  270. Exercise 2.8: Code Comparison Binary, AMI and 4B3T‏‎ (2 links)
  271. Exercise 3.3: Code Sequence Calculation via U(D) and G(D)‏‎ (2 links)
  272. Aufgabe 2.6: Freiraumdämpfung‏‎ (2 links)
  273. Exercise 1.3Z: Threshold Optimization‏‎ (2 links)
  274. Exercise 3.9: Conditional Mutual Information‏‎ (2 links)
  275. Exercise 4.4Z: Physical Channels in LTE‏‎ (2 links)
  276. 2.5 Restredundanz bei LZW-Codierung‏‎ (2 links)
  277. Learning videos to "Information Theory"‏‎ (2 links)
  278. Aufgabe 5.7: McCullough-Parameter aus Gilbert-Elliott-Parameter‏‎ (2 links)
  279. Exercise 3.8: Amplification and Limitation‏‎ (2 links)
  280. Exercise 5.7: OFDM Transmitter using IDFT‏‎ (2 links)
  281. Exercise 2.5Z: Nyquist Equalization‏‎ (2 links)
  282. Aufgabe 3.7Z: Welcher Code ist katastrophal?‏‎ (2 links)
  283. Exercise 2.10: SSB-AM with Channel Distortions‏‎ (2 links)
  284. Theory of Stochastic Signals/Statistische Abhängigkeit und Unabhängigkeit‏‎ (2 links)
  285. Exercise 3.11: Erasure Channel‏‎ (2 links)
  286. Exercise 4.4: Vector Diagram for DSB-AM‏‎ (2 links)
  287. Mobile Communications/Die Charakteristika von UMTS‏‎ (2 links)
  288. Aufgabe 1.4: Entropienäherungen für den AMI-Code‏‎ (2 links)
  289. Exercise 5.8: BMP Format‏‎ (2 links)
  290. Exercise 3.12: Cauchy Distribution‏‎ (2 links)
  291. Exercise 5.10: DMT Process for DSL‏‎ (2 links)
  292. Exercise 3.2: Laplace Transform‏‎ (2 links)
  293. Exercise 3.2: Spectrum with Angle Modulation‏‎ (2 links)
  294. Exercise 5.4Z: On the Hanning Window‏‎ (2 links)
  295. Exercise 4.1: PDF, CDF and Probability‏‎ (2 links)
  296. Exercise 1.3: Channel Models BSC - BEC - BSEC - AWGN‏‎ (2 links)
  297. Exercise 2.1: General Description of xDSL‏‎ (2 links)
  298. Exercise 1.1Z: Simple Path Loss Model‏‎ (2 links)

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