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- Exercise 3.13: Path Weighting Function again (3 links)
- Biographies and Bibliographies/Letters A - D (3 links)
- Exercise 4.5: Mutual Information from 2D-PDF (3 links)
- Biographies and Bibliographies/Letters W - Z & Numbers (3 links)
- Channel Coding/Grundlagen der Faltungscodierung (3 links)
- Besselfunktionen erster Art (3 links)
- Exercise 4.08: Decision Regions at Three Symbols (3 links)
- Exercise 1.08Z: BPSK Error Probability (3 links)
- Digital Signal Transmission/Beschreibungsgrößen digitaler Kanalmodelle (3 links)
- Theory of Stochastic Signals/Wiener–Kolmogorow Filter (3 links)
- Exercise 2.7: C Programs "z1" and "z2" (3 links)
- Imprint for the book "Digital Signal Transmission" (3 links)
- Mehrwegeausbreitung und Frequenzselektivität (Applet) (3 links)
- Examples of Communication Systems/Weiterentwicklungen von ISDN (3 links)
- Exercise 3.6: State Transition Diagram (3 links)
- Exercise 1.4Z: Entropy of the AMI Code (3 links)
- Modulationsverfahren/Rauscheinfluss bei Winkelmodulation (3 links)
- Exercise 3.3Z: Characteristics Determination (3 links)
- Biographies and Bibliographies/Letters A - G (3 links)
- Digital Signal Transmission/Signale, Basisfunktionen und Vektorräume (3 links)
- Exercise 4.4Z: Supplement to Exercise 4.4 (3 links)
- Signal Representation/Analytical Signal and its Spectral Function (3 links)
- Exercise 4.1: PCM System 30/32 (3 links)
- Exercise 2.2: Properties of Galois Fields (3 links)
- Exercise 2.6: About the Huffman Coding (3 links)
- Zweiseitenband-Amplitudenmodulation (Lernvideo) (3 links)
- Exercise 3.2: GSM Data Rates (3 links)
- Theory of Stochastic Signals/Wiener–Kolmogorow–Filter (3 links)
- Theory of Stochastic Signals/Cumulative Distribution Function (CDF) (3 links)
- Exercise 3.1: Analysis of a Convolutional Encoder (3 links)
- Channel Coding/Grundlegendes zu den Turbocodes (3 links)
- Exercise 3.7: Bit Error Rate (BER) (3 links)
- Exercise 3.5: Recursive Filters for GF(2) (3 links)
- 2.13 Burrows-Wheeler-Rücktransformation (3 links)
- Exercise 5.7: McCullough and Gilbert-Elliott Parameters (3 links)
- Linear and Time Invariant Systems/Some Results from Transmission Line Theory (3 links)
- Digital Signal Transmission/Lineare Nyquistentzerrung (3 links)
- Exercise 3.09Z: Viterbi Algorithm again (3 links)
- Exercise 3.14: Channel Coding Theorem (3 links)
- Exercise 1.5: Binary Markov Source (3 links)
- Applets (3 links)
- Biographies and Bibliographies/Buchstaben G - I (3 links)
- Mobile Communications/Statistical Bonds Within the Rayleigh Process (3 links)
- Linear and Time Invariant Systems/Lineare Verzerrungen (3 links)
- Exercise 3.11: Viterbi Receiver and Trellis Diagram (3 links)
- Exercise 4.1: About the Gram-Schmidt Process (3 links)
- Exercise 1.16Z: Bounds for the Gaussian Error Function (3 links)
- Theory of Stochastic Signals/Einige grundlegende Definitionen (3 links)
- Signaldarstellung (3 links)
- Biographies and Bibliographies/Buchstaben Q - T (3 links)
- Exercise 4.13: Four-level QAM (3 links)
- Theory of Stochastic Signals/Wahrscheinlichkeitsdichtefunktion (3 links)
- Exercise 3.1Z: Convolution Codes of Rate 1/2 (3 links)
- 4B3T-Codes (3 links)
- Principle of 4B3T Coding (3 links)
- Exercise 5.7Z: McCullough Model once more (3 links)
- Mobile Communications/Non-Frequency-Selective Fading With Direct Component (3 links)
- Exercise 3.10: Metric Calculation (3 links)
- Exercise 5.2: Inverse Discrete Fourier Transform (3 links)
- Exercise 1.4Z: Modified MS43 Code (3 links)
- Mobile Communications/General information on the LTE mobile communications standard (3 links)
- Gegenüberstellung Binomial- und Poissonverteilung (3 links)
- Exercise 3.4Z: Various All-Pass Filters (3 links)
- Impulse und Spektren (3 links)
- Biographies and Bibliographies/Buchstaben J - L (3 links)
- Exercise 3.11Z: Maximum Likelihood Error Variables (3 links)
- Exercise 4.5Z: Tangent Hyperbolic and Inverse (3 links)
- Exercise 4.10: Binary and Quaternary (3 links)
- Exercise 4.5: Coaxial Cable - Impulse Response (3 links)
- Exercise 1.17: About the Channel Coding Theorem (3 links)
- Mobile Communications/Statistical bonds within the Rayleigh process (3 links)
- Exercise 4.09Z: Laplace Distributed Noise (3 links)
- Exercise 4.14: Phase Progression of the MSK (3 links)
- Exercise 2.08: Generator Polynomials for Reed-Solomon (3 links)
- Theory of Stochastic Signals/Power Density Spectrum (PDS) (3 links)
- Mobile Communications/LTE-Advanced - a further development of LTE (3 links)
- Exercise 2.7: AMI Code (3 links)
- Exercise 3.2: G-matrix of a Convolutional Encoder (3 links)
- Exercise 3.2: Eye Pattern according to Gaussian Low-Pass (3 links)
- Exercise 3.10: Mutual Information at the BSC (3 links)
- Channel Coding/Zielsetzung der Kanalcodierung (3 links)
- Exercise 3.4Z: Eye Opening and Level Number (3 links)
- Theory of Stochastic Signals/Exponentialverteilte Zufallsgrößen (3 links)
- Exercise 2.6: Modified MS43 Code (3 links)
- Exercise 3.8: Delay Filter DFE Realization (3 links)
- Glossary (3 links)
- Biographies and Bibliographies/Buchstaben M - O (3 links)
- Exercise 1.1Z: Nonredundant Binary Source (3 links)
- Exercise 4.2: AM/PM Oscillations (3 links)
- Signal Representation/Possible Errors when using DFT (3 links)
- Exercise 1.17Z: BPSK Channel Capacity (3 links)
- Exercise 3.5: GSM Full Rate Vocoder (3 links)
- Exercise 2.4: About the LZW algorithm (3 links)
- Imprint for the book "Linear and Time Invariant Systems" (3 links)
- Exercise 2.5: Three Variants of GF(2 power 4) (3 links)
- Exercise 4.14Z: Offset QPSK vs. MSK (3 links)
- Exercise 2.12Z: Reed-Solomon Syndrome Calculation (3 links)
- Exercise 3.4: Entropy for Different PMF (2 links)
- Exercise 3.9: Convolution of Rectangle and Gaussian Pulse (2 links)
- Imprint for the book "Channel Coding" (2 links)
- Exercise 5.2: Error Correlation Function (2 links)
- Exercise 2.7Z: Power-Spectral Density of Pseudo-Ternary Codes (2 links)
- General notes about "Mobile Communications" (2 links)
- Exercise 3.2Z: (3, 1, 3) Convolutional Encoder (2 links)
- Aufgabe 2.4Z: Tiefpass-Einfluss bei Synchrondemodulation (2 links)
- Exercise 1.3: Rectangular Functions for Transmitter and Receiver (2 links)
- Exercise 4.4: Modulation in LTE (2 links)
- General notes about "Examples of Communication Systems" (2 links)
- Exercise 1.2Z: Three-dimensional Representation of Codes (2 links)
- Imprint for the book "Information Theory" (2 links)
- Digital Signal Transmission/Anwendungen bei Multimedia–Dateien (2 links)
- Exercise 2.5: Distortion and Equalization (2 links)
- Exercise 3.2Z: Optimum Cut-off Frequency for Gaussian Low-pass (2 links)
- Aufgabe 3.7: Vergleich zweier Faltungscodierer (2 links)
- Exercise 2.9: Symmetrical Distortions (2 links)
- Exercise 1.7: System Efficiencies (2 links)
- Exercise 3.10Z: BSC Channel Capacity (2 links)
- Exercise 4.3Z: Hilbert Transformator (2 links)
- Examples of Communication Systems/Sprachcodierung (2 links)
- Exercise 3.11: Chebyshev's Inequality (2 links)
- Exercise 3.5: Eye Opening with Pseudoternary Coding (2 links)
- Exercise 3.1Z: Influence of the Message Phase in Phase Modulation (2 links)
- Exercise 5.4: Comparison of Rectangular and Hanning Window (2 links)
- Exercise 1.7: Coding for B-ISDN (2 links)
- Exercise 1.6Z: Ternary Markov Source (2 links)
- Exercise 1.1: Dual Slope Loss Model (2 links)
- Aufgabe 4.Zehn: QPSK–Kanalkapazität (2 links)
- Exercise 2.2: Direct Current Component of Signals (2 links)
- Exercise 3.5Z: Application of the Residue Theorem (2 links)
- Imprint for the book "Mobile Communications" (2 links)
- Exercise 4.2: Channel Log Likelihood Ratio at AWGN (2 links)
- Pulses & Spectra (2 links)
- Aufgabe 1.09Z: Erweiterung und/oder Punktierung (2 links)
- Authors (2 links)
- Exercise 1.3Z: Rayleigh Fading Revisited (2 links)
- Exercise 4.7Z: Generation of a joint PDF (2 links)
- Aufgabe 4.2: Fehlangepasste Leitung (2 links)
- Exercise 3.13: Threshold Decision vs. DFE vs. Maximum Liekelihood (2 links)
- Exercise 3.10Z: Amplitude and Angle Modulation in Comparison (2 links)
- Aufgabe 3.3: GSM–Rahmenstruktur (2 links)
- Mobile Communications/Allgemeine Beschreibung zeitvarianter Systeme (2 links)
- Exercise 4.2Z: Eight-level Phase Shift Keying (2 links)
- Exercise 4.4: About the Quantization Noise (2 links)
- Exercise 4.8: Numerical Analysis of the AWGN Channel Capacity (2 links)
- Aufgabe 2.1: Gruppe, Ring, Körper (2 links)
- Exercise 3.6: Adaptive Multi–Rate Codec (2 links)
- Mobile Communications/Gemeinsamkeiten von GSM und UMTS (2 links)
- Exercise 2.4Z: LZW Coding and Decoding again (2 links)
- Exercise 2.6: Dimensions in GWSSUS (2 links)
- Exercise 4.15: PDF and Correlation Matrix (2 links)
- Dämpfung von Kupferkabeln (SWF) (2 links)
- Information Theory/Nachrichtenquellen mit Gedächtnis (2 links)
- Exercise 4.06Z: Signal Space Constellations (2 links)
- Exercise 1.5Z: Probabilities of Default (2 links)
- Bibliography to Signal Representation (2 links)
- Aufgabe 4.8Z: BPSK–Fehlerwahrscheinlichkeit (2 links)
- WDF und VTF bei Gaußschen 2D Zufallsgrößen (Applet) (2 links)
- Exercise 4.3: UMTS Access Level (2 links)
- Mobile Communications/History and development of mobile communication systems (2 links)
- Exercise 2.8: Huffman Application for a Markov Source (2 links)
- Exercise 4.10: Signal Waveforms of the 16-QAM (2 links)
- Exercise 5.1Z: Cosine Square Noise Limitation (2 links)
- Aufgabe 4.11Z: Fehlerwahrscheinlichkeit bei QAM (2 links)
- Biographies and Bibliographies/Buchstaben Y - Z & Ziffern (2 links)
- Exercise 2.5Z: Some Calculations about GF(2 power 3) (2 links)
- Exercise 1.1: A Special Dice Game (2 links)
- Modulation Methods/Nichtlineare digitale Modulation (2 links)
- Exercise 3.4Z: GSM Full-Rate Voice Codec (2 links)
- Exercise 5.5: ACF-Equivalent Filters (2 links)
- Exercise 4.15: Optimal Signal Space Allocation (2 links)
- Exercise 2.5Z: Flower Meadow (2 links)
- Exercise 2.09: Reed–Solomon Parameters (2 links)
- Theory of Stochastic Signals/Kreuzkorrelationsfunktion und Kreuzleistungsdichte (2 links)
- Exercise 5.8Z: Matched Filter for Rectangular PSD (2 links)
- Exercise 3.6: Even/Odd Time Signal (2 links)
- Exercise 4.19: Orthogonal Multilevel FSK (2 links)
- Exercise 1.8Z: Cosine-Square Low-Pass Filter (2 links)
- Exercise 2.2: Binary Bipolar Rectangles (2 links)
- Exercise 2.13: Decoding at RSC (7, 3, 5) to Base 8 (2 links)
- Exercise 2.1: Linear? Or Non-Linear? (2 links)
- Exercise 2.3: Binary Signal and Quaternary Signal (2 links)
- Exercise 2.14: Petersen Algorithm (2 links)
- Exercise 2.1: DSB-AM with Cosine? Or with Sine? (2 links)
- Exercise 3.5Z: Kullback-Leibler Distance again (2 links)
- Exercise 3.9Z: Convolution of Gaussian Pulses (2 links)
- Exercise 5.3: AWGN and BSC Model (2 links)
- Exercise 5.5: Multi-User Interference (2 links)
- Exercise 2.8: Code Comparison Binary, AMI and 4B3T (2 links)
- Exercise 3.3: Code Sequence Calculation via U(D) and G(D) (2 links)
- Aufgabe 2.6: Freiraumdämpfung (2 links)
- Exercise 1.3Z: Threshold Optimization (2 links)
- Exercise 3.9: Conditional Mutual Information (2 links)
- Exercise 4.4Z: Physical Channels in LTE (2 links)
- 2.5 Restredundanz bei LZW-Codierung (2 links)
- Learning videos to "Information Theory" (2 links)
- Aufgabe 5.7: McCullough-Parameter aus Gilbert-Elliott-Parameter (2 links)
- Exercise 3.8: Amplification and Limitation (2 links)
- Exercise 5.7: OFDM Transmitter using IDFT (2 links)
- Exercise 2.5Z: Nyquist Equalization (2 links)
- Aufgabe 3.7Z: Welcher Code ist katastrophal? (2 links)
- Exercise 2.10: SSB-AM with Channel Distortions (2 links)
- Theory of Stochastic Signals/Statistische Abhängigkeit und Unabhängigkeit (2 links)
- Exercise 3.11: Erasure Channel (2 links)
- Exercise 4.4: Vector Diagram for DSB-AM (2 links)
- Mobile Communications/Die Charakteristika von UMTS (2 links)
- Aufgabe 1.4: Entropienäherungen für den AMI-Code (2 links)
- Exercise 5.8: BMP Format (2 links)
- Exercise 3.12: Cauchy Distribution (2 links)
- Exercise 5.10: DMT Process for DSL (2 links)
- Exercise 3.2: Laplace Transform (2 links)
- Exercise 3.2: Spectrum with Angle Modulation (2 links)
- Exercise 5.4Z: On the Hanning Window (2 links)
- Exercise 4.1: PDF, CDF and Probability (2 links)
- Exercise 1.3: Channel Models BSC - BEC - BSEC - AWGN (2 links)
- Exercise 2.1: General Description of xDSL (2 links)
- Exercise 1.1Z: Simple Path Loss Model (2 links)
- Exercise 2.2Z: Nonlinearities (2 links)
- Physikalisches Signal und Analytisches Signal (2 links)
- Learning Videos to "Mobile Communications" (2 links)
- Exercise 4.3: Iterative Decoding at the BSC (2 links)
- Exercise 3.5: PM and FM for Rectangular Signals (2 links)
- Aufgabe 1.10: Einige Generatormatrizen (2 links)
- Exercise 2.5: DSL Error Protection (2 links)
- Exercise 4.8: Diamond-shaped Joint PDF (2 links)
- Exercise 1.1: Music Signals (2 links)
- Exercise 4.1: Attenuation Function (2 links)
- Modulation Methods/Allgemeines Modell der Modulation (2 links)
- Exercise 3.11: Pre-Emphase and De-Emphase (2 links)
- Signal Representation/Equivalent Low Pass Signal and Its Spectral Function (2 links)
- Exercise 1.13Z: Binary Erasure Channel Decoding again (2 links)
- Exercise 3.3: GSM Frame Structure (2 links)
- Mobile Communications/Allgemeines zum Mobilfunkstandard LTE (2 links)
- Exercise 4.2Z: Eight-step Phase Shift Keying (2 links)
- Imprint for the book "Modulation Methods" (2 links)
- Exercise 4.11: Analysis of Parity-check Matrices (2 links)
- Exercise 4.4Z: Signal-to-Noise Ratio with PCM (2 links)
- Exercise 4.8Z: What does the AWGN Channel Capacity Curve say? (2 links)
- Exercise 3.7: GSM System Components (2 links)
- Mobile Communications/Historie und Entwicklung der Mobilfunksysteme (2 links)
- Exercise 2.5: Residual Redundancy with LZW Coding (2 links)
- Exercise 4.15Z: Statements of the Covariance Matrix (2 links)
- Theory of Stochastic Signals/Autokorrelationsfunktion (AKF) (2 links)
- Exercise 1.6: Transition Probabilities (2 links)
- Exercise 1.4: Rayleigh PDF and Jakes PDS (2 links)
- Exercise 4.4: Cellular UMTS Architecture (2 links)
- Mobile Communications/Similarities of GSM and UMTS (2 links)
- Exercise 2.9: Huffman Decoding after Errors (2 links)
- Exercise 5.2Z: Two-Way Channel (2 links)
- Exercise 2.2: Multi-Level Signals (2 links)
- Exercise 1.3: Measured Step Response (2 links)
- Exercise 2.6: GF(P power m). Which P, which m? (2 links)
- Exercise 1.1Z: Sum of Two Ternary Signals (2 links)
- Exercise 4.16: Binary Frequency Shift Keying (2 links)
- Exercise 2.6Z: PN Generator of Length 3 (2 links)
- Exercise 1.5: Rectangular-in-Frequency Low-Pass Filter (2 links)
- Channel Coding/Einige Grundlagen der Algebra (2 links)
- Exercise 2.10: Reed-Solomon Fault Detection (2 links)
- Exercise 3.6: FDMA, TDMA and CDMA (2 links)
- Exercise 3.6Z: Complex Exponential Function (2 links)
- Exercise 3.2: CDF for Exercise 3.1 (2 links)
- Modulation Methods/Fehlerwahrscheinlichkeit der PN–Modulation (2 links)
- Exercise 2.1Z: Distortion and Equalisation (2 links)
- Exercise 2.4: Dualcode and Graycode (2 links)
- Exercise 2.15: Block Error Probability with AWGN (2 links)
- Exercise 2.1Z: DSB-AM without/with Carrier (2 links)
- Exercise 4.4Z: Vector Diagram for DSB-AM (2 links)
- Exercise 3.6: Partitioning Inequality (2 links)
- Exercise 4.1: General Questions about LTE (2 links)
- Exercise 5.3Z: Analysis of the BSC Model (2 links)
- General notes about "Signal Representation" (2 links)
- Exercise 3.3Z: Convolution and D-Transformation (2 links)
- Aufgabe 2.6Z: Signal-to-Noise-Ratio (SNR) (2 links)
- Channel Coding/Allgemeine Beschreibung linearer Blockcodes (2 links)
- Aufgabe 2.5: Restredundanz bei LZW-Codierung (2 links)
- Aufgabe 5.7Z: Nochmals McCullough-Modell (2 links)
- Exercise 3.8Z: Circle (Ring) Area (2 links)
- Exercise 5.7Z: Application of the IDFT (2 links)
- QFunction (2 links)
- Aufgabe 3.8: Rate Compatible Punctured Convolutional Codes (2 links)
- Exercise 2.10Z: Noise with DSB-AM and SSB-AM (2 links)
- Exercise 5.1: Sampling Theorem (2 links)
- Theory of Stochastic Signals/Wahrscheinlichkeit und relative Häufigkeit (2 links)
- Exercise 3.11Z: Extremely Asymmetrical Channel (2 links)
- Imprint for the book "Theory of Stochastic Signals" (2 links)
- Exercise 1.6: Cyclic Redundancy Check (2 links)
- Exercise 1.3: Entropy Approximations (2 links)
- Exercise 5.8Z: Falsification of BMP Images (2 links)
- Aufgabe 5.5Z: Zum Rake–Empfänger (2 links)
- About LNTwww (2 links)
- Exercise 3.2Z: Laplace and Fourier (2 links)
- Exercise 3.12Z: Ring and Feedback (2 links)
- Exercise 3.2Z: Bessel Spectrum (2 links)
- Exercise 5.5: Fast Fourier Transform (2 links)
- Exercise 1.4: Maximum Likelihood Decision (2 links)
- Exercise 2.2: xDSL Variants (2 links)
- Exercise 1.7: Entropy of Natural Texts (2 links)
- Physikalisches Signal und Äquivalentes TP-Signal (2 links)
- Exercise 3.6Z: Two Imaginary Poles (2 links)
- Exercise 4.3Z: Conversions of L-value and S-value (2 links)
- Exercise 3.5Z: Phase Modulation of a Trapezoidal Signal (2 links)
- Signaldarstellung/Harmonische Schwingung (2 links)
- Exercise 2.5Z: Reach and Bit Rate with ADSL (2 links)
- Exercise 1.6: Autocorrelation Function and PSD with Rice Fading (2 links)
- Exercise 4.8Z: AWGN Channel (2 links)
- Exercise 1.1Z: ISDN-Connection (2 links)
- Exercise 4.1Z: Transmission Behavior of Short Cables (2 links)
- Aufgabe 4.1: Tiefpass- und Bandpass-Signale (2 links)
- Beispiele von Nachrichtensystemen/Allgemeine Beschreibung von ISDN (2 links)
- Exercise 3.3Z: GSM 900 and GSM 1800 (2 links)
- Mobile Communications/Anwendung von OFDMA und SC-FDMA in LTE (2 links)
- Exercise 2.2: Simple Two-Path Channel Model (2 links)
- Exercise 4.12: Power-Spectral Density of a Binary Signal (2 links)
- Exercise 1.3: Calculating With Complex Numbers (2 links)
- Exercise 4.11Z: Code Rate from the Parity-check Matrix (2 links)
- Exercise 2.1: Group, Ring, Field (2 links)
- Exercise 4.9: Higher-Level Modulation (2 links)
- Mobile Communications/LTE–Advanced – eine Weiterentwicklung von LTE (2 links)
- Exercise 2.5Z: Compression Factor vs. Residual Redundancy (2 links)
- Exercise 4.16: Eigenvalues and Eigenvectors (2 links)
- Exercise 2.4: Rectified Cosine (2 links)
- Exercise 3.2: cos²-CDF and CDF with Step Functions (2 links)
- Exercise 4.07: Decision Boundaries once again (2 links)
- Exercise 1.6Z: Ergodic Probabilities (2 links)
- Learning Videos Related to Signal Representation (2 links)
- Mobile Communications/Application of OFDMA and SC-FDMA in LTE (2 links)
- Exercise 3.1: Development of the Mobile Network (2 links)
- Exercise 3.1Z: Spectrum of the Triangular Pulse (2 links)
- Information Theory/Natürliche wertdiskrete Nachrichtenquellen (2 links)
- Exercise 4.11: On-Off Keying and Binary Phase Shift Keying (2 links)
- Exercise 2.2Z: Discrete Random Variables (2 links)
- Exercise 4.12: Root-Nyquist Systems (2 links)
- Exercise 4.8: HSDPA and HSUPA (2 links)
- Exercise 2.13: Inverse Burrows-Wheeler Transformation (2 links)
- Aufgabe 4.16: Binary Frequency Shift Keying (2 links)
- Exercise 5.5Z: ACF after 1st Order Filter (2 links)
- Exercise 2.6: PN Generator of Length 5 (2 links)
- Exercise 1.5Z: Sinc-shaped Impulse Response (2 links)
- Exercise 2.10Z: Code Rate and Minimum Distance (2 links)
- Exercise 1.2: Distortions? Or no Distortion? (2 links)
- Exercise 3.6Z: Concepts of 3G Mobile Communications Systems (2 links)
- Information Theory/AWGN Channel Capacity for Discrete-Valued Input (2 links)
- Exercise 3.2Z: Relationship between PDF and CDF (2 links)
- Exercise 3.3: Moments for Cosine-square PDF (2 links)
- Exercise 5.3: PACF of PN Sequences (2 links)
- Exercise 2.2: Distortion Power (2 links)
- Exercise 2.4Z: Error Probabilities for the Octal System (2 links)
- General Notes about the Book "Stochastic Signal Theory" (2 links)
- Exercise 2.2: Modulation Depth (2 links)
- Exercise 4.2: FDD, TDD and Half-Duplex (2 links)
- Exercise 5.4:Is the BSC Model Renewing? (2 links)
- Exercise 3.6: Noisy DC Signal (2 links)
- 4.3 WDF–Vergleich bezüglich h(X) (2 links)
- Exercise 3.4: Systematic Convolution Codes (2 links)
- Exercise 2.5: DSB-AM via a Gaussian channel (2 links)
- Exercise 4.5: Locality Curve for DSB-AM (2 links)
- Exercise 1.4: Nyquist Criteria (2 links)
- Exercise 4.2: Rectangular-Shaped Spectra (2 links)
- 1.5Z Symmetrische Markovquelle (2 links)
- Information Theory/ (2 links)
- Exercise 3.9: Characteristic Curve for Cosine PDF (2 links)
- Exercise 5.8: Equalization in Matrix Vector Notation (2 links)
- Exercise 3.7Z: Which Code is Catastrophic? (2 links)
- Aufgabe 1.3Z: Gewinnen mit Roulette? (2 links)
- Exercise 2.6Z: Synchronous Demodulator (2 links)
- Exercise 3.3: Noise at Channel Equalization (2 links)
- Exercise 2.11: Envelope Demodulation of an SSB Signal (2 links)
- Regionen (2 links)
- Exercise 5.1Z: Sampling of Harmonic Oscillations (2 links)
- Exercise 3.12: Strictly Symmetrical Channels (2 links)
- Exercise 1.3: Frame Structure of ISDN (2 links)
- Exercise 1.4Z: On the Doppler Effect (2 links)
- Exercise 4.1Z: Appointment to Breakfast (2 links)
- Signal Representation/ (2 links)
- Exercise 3.8: Triple Convolution? (2 links)
- Exercise 3.3: p-Transfer Function (2 links)
- Exercise 3.6Z:Optimum Nyquist Equalizer for Exponential Pulse (2 links)
- Exercise 3.3: Sum of two Oscillations (2 links)
- Exercise 5.5Z: Complexity of The FFT (2 links)
- Exercise 4.2: Triangular PDF (2 links)
- Exercise 2.2Z: DSL Internet Connection (2 links)
- Exercise 1.8: Synthetically Generated Texts (2 links)
- Exercise 1.2Z: Lognormal Fading Revisited (2 links)
- Exercise 4.4Z: Contour Lines of the "2D-PDF" (2 links)
- Exercise 3.7: Impulse Response of a High-Pass Filter (2 links)
- Exercise 3.10: Maximum Likelihood Tree Diagram (2 links)
- Exercise 3.6: PM or FM? Or AM? (2 links)
- Aufgabe 2.4: Gleichgerichteter Cosinus (2 links)
- Exercise 2.6: Cyclic Prefix (2 links)
- Exercise 2.1: Coding with and without Loss (2 links)
- Exercise 1.6Z: Comparison of Rayleigh and Rice (2 links)
- Signal Representation/Harmonische Schwingung (2 links)
- Exercise 4.3: Operational Attenuation (2 links)
- Aufgabe 4.2: AM/PM-Schwingungen (2 links)
- Exercise 4.7Z: Principle of Syndrome Decoding (2 links)
- Aufgabe 4.4: Zum Quantisierungsrauschen (2 links)
- Exercise 4.4: Pointer Diagram for DSB-AM (2 links)
- Exercise 1.15: Distance Spectra of HC (7, 4, 3) and HC (8, 4, 4) (2 links)
- Exercise 3.4: GMSK Modulation (2 links)
- Mobile Communications/Bitübertragungsschicht bei LTE (2 links)
- Aufgabe 2.4Z: Nochmals LZW-Codierung und -Decodierung (2 links)
- Exercise 2.2Z: Real Two-Path Channel (2 links)
- Exercise 4.12Z: White Gaussian Noise (2 links)
- Exercise 1.3Z: Calculating with Complex Numbers II (2 links)
- Aufgabe 4.06: Optimale Entscheidungsgrenzen (2 links)
- Exercise 4.12: Regular and Irregular Tanner Graph (2 links)
- Exercise 4.6: Quantization Characteristics (2 links)
- Exercise 2.1Z: Which Tables Describe Groups? (2 links)
- Exercise 4.9Z: Is Channel Capacity C ≡ 1 possible with BPSK? (2 links)
- Exercise 3.8: General Packet Radio Service (2 links)
- Mobile Communications/Mehrwegeempfang beim Mobilfunk (2 links)
- Exercise 2.8: COST Delay Models (2 links)
- Exercise 4.16Z: Multidimensional Data Reduction (2 links)
- Exercise 2.4Z: Triangular Function (2 links)
- Exercise 1.7: Ternary Markov Chain (2 links)
- Exercise 4.9: Costas Rule Loop (2 links)
- Exercise 2.3: Reducible and Irreducible Polynomials (2 links)
- Exercise 4.6Z: ISDN Supply Lines (2 links)
- Mobile Communications/Bit transmission layer for LTE (2 links)
- Exercise 2.12: Run–Length Coding and Run–Length Limited Coding (2 links)
- Exercise 5.3: 1st order Digital Filter (2 links)
- Exercise 3.2: From the Spectrum to the Signal (2 links)
- 2.3Z Zur LZ77-Codierung (2 links)
- Exercise 4.11Z: OOK and BPSK once again (2 links)
- Exercise 4.12Z: 4-QAM Systems again (2 links)
- Eercise 4.1: About the Gram-Schmidt Process (2 links)
- Exercise 1.4: Low-Pass Filter of 2nd Order (2 links)
- Exercise 1.2: Switching Logic (D/B Converter) (2 links)
- Exercise 3.5: Kullback-Leibler Distance and Binomial Distribution (2 links)
- Aufgabe 4.18Z: BER von kohärenter und nichtkohärenter FSK (2 links)
- Exercise 5.6: Filter Dimensioning (2 links)
- Modulation Methods/Zielsetzung von Modulation und Demodulation (2 links)
- 2D Laplace (2 links)
- Exercise 1.6: Rectangular-in-Time Low-Pass Filter (2 links)
- Exercise 4.1: Low-Pass and Bandpass Signals (2 links)
- Exercise 2.11: Reed-Solomon Decoding according to "Erasures" (2 links)
- Exercise 1.2Z: Linear Distorting System (2 links)
- Exercise 3.1: Probabilities when Rolling Dice (2 links)
- Exercise 3.7: PN Modulation (2 links)
- Exercise 2.4Z: Low-pass Influence with Synchronous Demodulation (2 links)
- Exercise 3.7: Synchronous Demodulator (2 links)
- Exercise 2.4: Frequency and Phase Offset (2 links)
- Exercise 3.3Z: Moments for Triangular PDF (2 links)
- Exercise 5.3Z: Realization of a PN Sequence (2 links)
- Exercise 2.2Z: Distortion Power again (2 links)
- Exercise 2.5: Ternary Signal Transmission (2 links)
- Exercise 2.16: Bounded Distance Decoding: Decision Regions (2 links)
- Exercise 2.2Z: Power Consideration (2 links)
- Digital Signal Transmission/Systemkomponenten eines Basisbandübertragungssystems (2 links)
- Exercise 4.2Z: MIMO Applications in LTE (2 links)
- Modulation Methods/Frequenzmodulation (FM) (2 links)
- Channel Coding/Definition und Eigenschaften von Reed–Solomon–Codes (2 links)
- Exercise 3.6Z: Examination Correction (2 links)
- Exercise 5.6: OFDM Spectrum (2 links)
- Exercise 2.3Z: Asymmetrical Characteristic Operation (2 links)
- Exercise 3.1: Impulse response of the Coaxial Cable (2 links)
- Exercise 3.4Z: Equivalent Convolution Codes? (2 links)
- Exercise 2.5Z: Linear Distortions with DSB-AM (2 links)
- Exercise 4.5Z: Simple Phase Modulator (2 links)
- Exercise 1.4Z: Complex Nyquist Spectrum (2 links)
- Exercise 4.5: LTE vs LTE-Advanced (2 links)
- Exercise 4.2Z: Multiplication with a Sine Signal (2 links)
- Informationstheorie/Weitere Quellencodierverfahren (2 links)
- Exercise 1.1: Entropy of the Weather (2 links)
- Exercise 3.9Z: Sine Transformation (2 links)
- Exercise 5.8Z: Cyclic Prefix and Guard Interval (2 links)
- Exercise 2.7: Two-Way Channel once more (2 links)
- Exercise 3.3Z: Optimization of a Coaxial Cable System (2 links)
- Exercise 3.09: Basics of the Viterbi Algorithm (2 links)
- Exercise 2.11Z: Once again SSB-AM and Envelope Demodulator (2 links)
- Sprachcodecs (2 links)
- Exercise 3.13: Code Rate and Reliability (2 links)
- Imprint for the book "Examples of Communication Systems" (2 links)
- Exercise 1.3Z: ISDN Bus System and Interfaces (2 links)
- Exercise 1.5: Reconstruction of the Jakes Spectrum (2 links)
- Exercise 4.2: Triangle Area again (2 links)
- Exercise 3.3Z: High- and Low-Pass Filters in p-Form (2 links)
- Exercise 3.7: Optimal Nyquist Equalization once again (2 links)
- Exercise 3.14: Error Probability Bounds (2 links)
- Exercise 5.5Z: Complexity of the FFT (2 links)
- Biographies and Bibliographies/Buchstaben A - C (2 links)
- Exercise 4.2Z: Mixed Random Variables (2 links)
- Aufgabe 1.07Z: Klassifizierung von Blockcodes (2 links)
- Exercise 2.3: QAM Signal Space Assignment (2 links)
- 2.12 Quadratur-AM (2 links)
- Exercise 4.5: Two-dimensional Examination Evaluation (2 links)
- Exercise 3.7Z: Partial Fraction Decomposition (2 links)
- Exercise 1.1Z: Low-Pass 1st and 2nd Order (2 links)
- Exercise 3.7: Angular Modulation of a Harmonic Oscillation (2 links)
- Biographies and Bibliographies/Buchstaben N - Z (2 links)
- Exercise 4.5Z: Again Mutual Information (2 links)
- Exercise 2.2: Kraft–McMillan Inequality (2 links)
- Exercise 1.7: PDF of Rice Fading (2 links)
- Exercise 4.09: Cyclo-Ergodicity (2 links)
- Physical Signal & Equivalent Low-pass Signal (2 links)
- Aufgabe 4.3: Unterschiedliche Frequenzen (2 links)
- Exercise 3.4Z: Continuous Phase Frequency Shift Keying (2 links)
- Mobile Communications/Das GWSSUS–Kanalmodell (2 links)
- Aufgabe 2.5Z: Komprimierungsfaktor vs. Restredundanz (2 links)
- Exercise 2.3: Yet Another Multi-Path Channel (2 links)
- Exercise 4.13: Gaussian ACF and PSD (2 links)