Double redirects
From LNTwww
This page lists pages that redirect to other redirect pages.
Each row contains links to the first and second redirect, as well as the target of the second redirect, which is usually the "real" target page to which the first redirect should point.
Crossed out entries have been solved.
Showing below up to 50 results in range #1,421 to #1,470.
View (previous 50 | next 50) (20 | 50 | 100 | 250 | 500)
- Aufgabe 2.5: Drei Varianten von GF(2 hoch 4) → Exercise 2.5: Three Variants of GF(2 to the 4th Power) → Exercise 2.5: Three Variants of GF(2 power 4)
- Aufgabe 2.5Z: Nochmals Verzerrungen bei ZSB-AM → Exercise 2.5Z: Distortions with DSB-AM → Exercise 2.5Z: Linear Distortions with DSB-AM
- Aufgabe 2.5Z: Nyquistentzerrung → Exercise 2.5Z: Nyquist Equalisation → Exercise 2.5Z: Nyquist Equalization
- Aufgabe 2.5Z: Einige Berechnungen über GF(2 hoch 3) → Exercise 2.5Z: Some calculations about GF(2 power 3) → Exercise 2.5Z: Some Calculations about GF(2 power 3)
- Aufgabe 2.6: Zur Huffman-Codierung → Exercise 2.6: About the Huffman coding → Exercise 2.6: About the Huffman Coding
- Exercises:Exercise 2.6: Units in GWSSUS → Exercise 2.6: Units in GWSSUS → Exercise 2.6: Dimensions in GWSSUS
- Aufgabe 2.7: Nochmals Zweiwegekanal → Exercise 2.7: Synchronous Demodulator → Exercise 2.7: Two-Way Channel once more
- Aufgabe 2.8: Vergleich von Binärcode, AMI-Code und 4B3T-Code → Exercise 2.8: Code Comparison Binary, AMI and 4B3T → Exercise 2.8: Code Comparison: Binary, AMI and 4B3T
- Aufgabe 3.11: Auslöschungskanal → Exercise 3.11: Erasure channel → Exercise 3.11: Erasure Channel
- Aufgabe 3.11Z: Maximum-Likelihood-Fehlergrößen → Exercise 3.11Z: Maximum Likelihood Error Variables → Exercise 3.11Z: Metric and Accumutated Metric
- Aufgabe 3.12: Streng symmetrische Kanäle → Exercise 3.12: Strongly Symmetrical Channels → Exercise 3.12: Strictly Symmetrical Channels
- Aufgabe 3.13: Vergleich SWE - DFE - ML → Exercise 3.13: Comparison Threshold Decision - DFE - Maximum Liekelihood → Exercise 3.13: Threshold Decision vs. DFE vs. Maximum Liekelihood
- Exercise 3.13: Comparison Threshold Decision - DFE - Maximum Liekelihood → Exercise 3.13: Threshold Decision vs. DFE vs. Maximum Liekelihood → Exercise 3.13: Threshold Decision vs. DFE vs. Maximum Likelihood
- Aufgabe 3.1: Impulsantwort des Koaxialkabels → Exercise 3.1: Impulse response of the Coaxial Cable → Exercise 3.1: Impulse Response of the Coaxial Cable
- Aufgabe 3.1: cos² - und Dirac-WDF → Exercise 3.1: cos²-PDF and PDF with Dirac Functions → Exercise 3.1: Cosine-square PDF and PDF with Dirac Functions
- Aufgabe 3.1Z: Karten ziehen → Exercise 3.1Z: Drawing cards → Exercise 3.1Z: Drawing Cards
- Exercise 3.2: cos² CDF and CDF with Step Functions → Exercise 3.2: cos²-CDF and CDF with Step Functions → Exercise 3.2: CDF for Exercise 3.1
- Aufgabe 3.2: cos²- und Dirac-VTF → Exercise 3.2: cos² CDF and CDF with Step Functions → Exercise 3.2: cos²-CDF and CDF with Step Functions
- Aufgabe 3.2Z: Optimale Grenzfrequenz bei Gauß-Tiefpass → Exercise 3.2Z: Optimum Cut-off Frequency for Gaussian Low-pass → Exercise 3.2Z: Optimum Cutoff Frequency for Gaussian Low-pass
- Exercis 3.2Z: Sinc-Squared-Spectrum with Diracs → Exercise 3.2Z: Sinc-Squared-Spectrum with Diracs → Exercise 3.2Z: Sinc-Squared Spectrum with Diracs
- Aufgabe 3.3: From The Signal to the Spectrum → Exercise 3.3: From The Signal to the Spectrum → Exercise 3.3: From the Signal to the Spectrum
- Aufgabe 3.3: Momente bei cos²-WDF → Exercise 3.3: Moments at cos²-PDF → Exercise 3.3: Moments for cos²-PDF
- Exercise 3.3: Moments at cos²-PDF → Exercise 3.3: Moments for cos²-PDF → Exercise 3.3: Moments for Cosine-square PDF
- Exercise 3.3Z: High and Low Passes in p-Form → Exercise 3.3Z: High- and Low-Passes in p-Form → Exercise 3.3Z: High- and Low-Pass Filters in p-Form
- Aufgabe 3.3Z: Hoch- und Tiefpässe in p-Form → Exercise 3.3Z: High and Low Passes in p-Form → Exercise 3.3Z: High- and Low-Passes in p-Form
- Aufgabe 3.3Z: Rechteck- und Diracimpuls → Exercise 3.3Z: Rectangular- and Dirac Pulse → Exercise 3.3Z: Rectangular Pulse and Dirac Impulse
- Exercise 3.3Z: Rectangular- and Dirac Pulse → Exercise 3.3Z: Rectangular Pulse and Dirac Impulse → Exercise 3.3Z: Rectangular Pulse and Dirac Delta
- Aufgabe 3.4Z: Augenöffnung und Stufenzahl → Exercise 3.4Z: Eye Opening and Number of Steps → Exercise 3.4Z: Eye Opening and Step Number
- Exercise 3.4Z: Eye Opening and Number of Steps → Exercise 3.4Z: Eye Opening and Step Number → Exercise 3.4Z: Eye Opening and Level Number
- Aufgabe 3.4Z: Verschiedene Allpässe → Exercise 3.4Z: Various All-Passes → Exercise 3.4Z: Various All-Pass Filters
- Aufgabe 3.5: GSM–Vollraten–Sprachcodec → Exercise 3.5: GSM Full-Rate Voice Codec → Exercise 3.5: GSM Full Rate Codec
- Exercise 3.5: GSM Full-Rate Voice Codec → Exercise 3.5: GSM Full Rate Codec → Exercise 3.5: GSM Full Rate Vocoder
- Aufgabe 3.6: Adaptive Multi–Rate Codec → Exercise 3.6: Adaptive Multi–Rate Codec → Exercise 3.6: Adaptive Multi Rate Codec
- Aufgabe 3.6: Gerades/ungerades Zeitsignal → Exercise 3.6: Even/Odd Time Signal → Exercise 3.6: Even and Odd Time Signals
- Aufgabe 3.6: Einschwingverhalten → Exercise 3.6: Transient Behaviour → Exercise 3.6: Transient Behavior
- Aufgabe 3.7: Synchrondemodulator → Exercise 3.7: Carrier Recovery → Exercise 3.7: Synchronous Demodulator
- Aufgabe 3.7: Komponenten des GSM–Systems → Exercise 3.7: Components of the GSM System → Exercise 3.7: GSM System Components
- Exercise 3.7Z: Square Wave With Echo → Exercise 3.7Z: Rectangular signal with Echo → Exercise 3.7Z: Rectangular Signal with Echo
- Aufgabe 3.7Z: Rechtecksignal mit Echo → Exercise 3.7Z: Square Wave With Echo → Exercise 3.7Z: Rectangular signal with Echo
- Aufgabe 3.8: Nochmals Transinformation → Exercise 3.8: Once more Muual Information → Exercise 3.8: Once more Mutual Information
- Aufgabe 3.8: Dreimal Faltung → Exercise 3.8: Triple Convolution → Exercise 3.8: Triple Convolution?
- Aufgabe 3.8Z: Faltung zweier Rechtecke → Exercise 3.8Z:Convolution of Two Rectangles → Exercise 3.8Z: Convolution of Two Rectangles
- Aufgabe 4.10: Turbocoder für UMTS und LTE → Exercise 4.10: Turbo Enccoder for UMTS and LTE → Exercise 4.10: Turbo Encoder for UMTS and LTE
- Aufgabe 4.11: Analyse von Prüfmatrizen → Exercise 4.11: Analysis of Parity-Check Matrices → Exercise 4.11: Analysis of Parity-check Matrices
- Aufgabe 4.11: C-Programm „akf1” → Exercise 4.11: C Program "z3" „acf1” → Exercise 4.11: C Program "acf1"
- Aufgabe 4.12: LDS eines Binärsignals → Exercise 4.12: Power-spectral Density of a Binary Signal → Exercise 4.12: Power-Spectral Density of a Binary Signal
- Aufgabe 4.12: Wurzel–Nyquist–Systeme → Exercise 4.12: Root Nyquist Systems → Exercise 4.12: Root-Nyquist Systems
- Aufgabe 4.12Z: Nochmals 4–QAM–Systeme → Exercise 4.12Z: 4-QAM systems again → Exercise 4.12Z: 4-QAM Systems again
- Aufgabe 4.13: Gaußförmige AKF → Exercise 4.13: Gaussian ACF → Exercise 4.13: Gaussian ACF and PSD
- Aufgabe 4.15: WDF und Korrelationsmatrix → Exercise 4.15: PDF and Correlation Matrix → Exercise 4.15: PDF and Covariance Matrix