04:52

CMA - Compromis de performance et de complexité

11:04

CMA - Motivation

07:37

CMA - A raised cosine pulse shaping example

04:07

CMA - Performance and complexity trade-offs

05:07

CMA - Objective function for adaptation

06:02

CMA - Matlab implementation of CMA

12:00

CMA - Motivation

12:05

CMA - Un exemple d’une impulsion sculptée en cosinus surélevé

07:14

CMA - Timing recovery using CMA

06:42

CMA - Implémentation de la CMA dans Matlab

07:00

CMA - Fonction objectif pour l'adaptation

09:01

CMA - Récupération de la synchronisation à l'aide de la CMA

10:35

Détection cohérente en optique - Mathematics

15:39

Détection cohérente en optique - Motivation

08:55

Détection cohérente en optique - Dual pol

06:26

Détection cohérente en optique - Implementation

06:48

Détection cohérente en optique - Spectres

11:15

Détection cohérente en optique - Exemple QPSK

13:40

Détection cohérente en optique - Survol

08:06

Optical Coherent Detection - Dual pol

09:20

Optical Coherent Detection - Mathematics

06:20

Optical Coherent Detection - Implementation

05:47

Optical Coherent Detection - QPSK spectra

09:43

Optical Coherent Detection - QPSK example

09:22

Optical Coherent Detection - Overview

13:07

Optical Coherent Detection - Motivation

19:39

Meeting high speed transmission targets with silicon photonics

03:01

OFC2024 Neural Network Model of a Second Stage L-band Amplifier using Experimental Training Sets

25:02

Silicon Photonics for High-Speed 5G and Optical Networks

25:00

GEL7114 - Homework A3 - Viterbi Decoding for Convolutional Codes

11:15

GEL7114 - Module 3.21 – SNR vs. Eb/N0

09:54

GEL7114 - Module 3.22 – Channel Capacity aka Shannon's Law

10:29

GEL7114 - Module 3.23 – Spectral Efficiency Plane

15:46

GEL7114 - Module 3.20 – Contrasting MFSK vs. MPSK vs. MQAM for spectral and power efficiency

11:04

GEL7114 - Module 3.19 – Spectral Efficiency of MPSK and MQAM

14:27

GEL7114 - Module 3.17 - Minimum Frequency Spacing for MFSK

05:28

GEL7114 - Module 3.16 – Bit vs. Symbol Error Probability for Nonorthogonal Modulation w/ Grey Coding

11:49

GEL7114 - Module 3.18 – Spectral Efficiency of MFSK

13:10

GEL7114 - Module 3.15 – Bit vs. Symbol Error Probability (BER vs. SER) for Orthogonal Modulation

27:16

GEL7114 - Module 3.14 – Noncoherent Frequency Shift Keying

59:55

Demystifying the Writing of a Scientific Paper

20:14

GEL7114 - Homework A1.2 - VSA software demo

16:36

GEL7114 - Module 3.9 - M-QAM BER Performance

21:57

GEL7114 - Module 3.10 - BER Performance vis-à-vis QPSK

13:50

GEL7114 - Module 3.13 – Differential Phase Shift Keying (DPSK)

08:42

GEL7114 - Module 3.8 - M-FSK BER Performance

11:49

GEL7114 - Module 3.12 – Non-coherent Detection

12:37

GEL7114 - Module 3.11 – M-QAM Non-rectangular Examples

24:38

Ring-Core Fibers Supporting Propagation of OAM Modes

13:35

GEL7114 - Module 3.5 - Decision regions

06:08

GEL7114 - Module 3.7 - M-PSK BER Performance

17:53

GEL7114 - Module 3.6 - The Union Bound

14:32

GEL7114 - Module 3.4 - Test statistics

33:52

GEL7114 - Module 3.3 - Signal space manipulations

30:57

GEL7114 - Module 3.2 - Modulation formats

09:53

GEL7114 - Module 3.1 - Modulation

11:00

GEL7114 - Module 2.12 - Raised Cosine pulses

19:02

GEL7114 - Module 2.11 - Avoiding intersymbol interference

07:55

GEL7114 Module 2.13 - Matlab demo: Root-raised-cosine

37:30

GEL7114 - Module 2.8 - Signal space analysis