Outline Transmitters (Chapters 3 and 4, Source Coding and Modulation) (week 1 and 2) Receivers (Chapter 5) (week 3 and 4) Received Signal Synchronization.

Slides:

Advertisements

Similar presentations

Chapter 2: Digital Modulation

Advertisements

1 Chapter 3 Digital Communication Fundamentals for Cognitive Radio Cognitive Radio Communications and Networks: Principles and Practice By A. M. Wyglinski,

Outline Transmitters (Chapters 3 and 4, Source Coding and Modulation) (week 1 and 2) Receivers (Chapter 5) (week 3 and 4) Received Signal Synchronization.

Quiz Determine the minimum number of shift register stages required to create a maximal length PN sequence which has a repetition time greater than 10.

EE359 – Lecture 16 Outline Announcements: HW due Thurs., last HW will be posted Thurs., due 12/4 (no late HWs) Friday makeup lecture 9:30-10:45 in Gates.

Outline Transmitters (Chapters 3 and 4, Source Coding and Modulation) (week 1 and 2) Receivers (Chapter 5) (week 3 and 4) Received Signal Synchronization.

Cellular Communications

Optimization of pilot Locations in Adaptive M-PSK Modulation in a Rayleigh Fading Channel Khaled Almustafa Information System Prince Sultan University.

RAKE Receiver Marcel Bautista February 12, Propagation of Tx Signal.

Why to Apply Digital Transmission?

Dept. of EE, NDHU 1 Chapter Three Baseband Demodulation/Detection.

Lecture 3-1: Coding and Error Control

Anthony Gaught Advisors: Dr. In Soo Ahn and Dr. Yufeng Lu Department of Electrical and Computer Engineering Bradley University, Peoria, Illinois May 7,

Seyed Mohamad Alavi, Chi Zhou, Yu Cheng Department of Electrical and Computer Engineering Illinois Institute of Technology, Chicago, IL, USA ICC 2009.

1 INF244 Textbook: Lin and Costello Lectures (Tu+Th ) covering roughly Chapter 1;Chapters 9-19? Weekly exercises: For your convenience Mandatory.

I. Previously on IET.

1/ , Graz, Austria Power Spectral Density of Convolutional Coded Pulse Interval Modulation Z. Ghassemlooy, S. K. Hashemi and M. Amiri Optical Communications.

ECE 283 Digital Communication Systems Course Description –Digital modulation techniques. Coding theory. Transmission over bandwidth constrained channels.

Wireless Mobile Communication and Transmission Lab. Chapter 8 Application of Error Control Coding.

CENG 5931 GNU Radio Instructor:Dr.Collins Presented by Geetha Paturi ( )

Outline Transmitters (Chapters 3 and 4, Source Coding and Modulation) (week 1 and 2) Receivers (Chapter 5) (week 3 and 4) Received Signal Synchronization.

Medicaps Institute of Technology & Management Submitted by :- Prasanna Panse Priyanka Shukla Savita Deshmukh Guided by :- Mr. Anshul Shrotriya Assistant.

Outline Transmitters (Chapters 3 and 4, Source Coding and Modulation) (week 1 and 2) Receivers (Chapter 5) (week 3 and 4) Received Signal Synchronization.

Outline Transmitters (Chapters 3 and 4, Source Coding and Modulation) (week 1 and 2) Receivers (Chapter 5) (week 3 and 4) Received Signal Synchronization.

Outline Transmitters (Chapters 3 and 4, Source Coding and Modulation) (week 1 and 2) Receivers (Chapter 5) (week 3 and 4) Received Signal Synchronization.

CELLULAR COMMUNICATIONS MIDTERM REVIEW. Representing Oscillations   w is angular frequency    Need two variables to represent a state  Use a single.

Digital Modulation Technique

OFDM Based WLAN System Song Ziqi Zhang Zhuo.

Digital Transceiver Implementation

Outline Transmitters (Chapters 3 and 4, Source Coding and Modulation) (week 1 and 2) Receivers (Chapter 5) (week 3 and 4) Received Signal Synchronization.

Digital Modulation Basics

EE359 – Lecture 17 Outline Review of Last Lecture MIMO Decision-Feedback Receivers MIMO Sphere Decoders Other MIMO Design Issues Introduction to ISI Countermeasures.

S , Postgraduate Course in Radio Communications

EE359 – Lecture 16 Outline ISI Countermeasures Multicarrier Modulation

Lecture Slides 26-September-2017

Chapter 5: Third generation systems-Wideband Digital Modulation

Outline Introduction Type of Multiplexing FDMA TDMA CDMA Future Work

Chapter 7 Performance of QAM

A New Technique for Sidelobe Suppression in OFDM Systems

Chapter 4: Second generation Systems-Digital Modulation

I. Previously on IET.

Modem Eng. M. Zamanian By Amir Taherin.

KOMUNIKASI DATA Materi Pertemuan 10.

Digital Communications Chapter 13. Source Coding

Optimal Receivers in Multipath: Single-Carrier and OFDM

Principios de Comunicaciones EL4005

Lecture 12 Outline: Quadrature Modulation FIR Filter Design

Equalization in a wideband TDMA system

Chapter 3 Pulse Modulation

Coding and Interleaving

Physical Layer (Part 2) Data Encoding Techniques

S Digital Communication Systems

Orthogonal Frequency Division Multiplexing ...

Physical Layer – Part 2 Data Encoding Techniques

Rajagopal, Harish Nawani, Varun

Orthogonal Frequency Division Multiplexing

Klaus Witrisal Signal Processing and Speech Communication Lab

Decision-directed Joint Tracking Loop for Carrier Phase and Symbol Timing in QAM Project 2 ECE283 Fall 2004.

Equalization in a wideband TDMA system

Channel Estimation in OFDM Systems

Chapter 5: Third generation systems-Wideband Digital Modulation

Digital Communication Chapter 1: Introduction

Multicarrier Communication and Cognitive Radio

EE359 – Lecture 18 Outline Announcements Review of Last Lecture

EE359 – Lecture 17 Outline Announcements Review of Last Lecture

Chapter 5. Data Encoding Digital Data, Digital Signals

Channel Estimation in OFDM Systems

Chapter Three: Signals and Data Transmission

Homework #2 Due May 29 , Consider a (2,1,4) convolutional code with g(1) = 1+ D2, g(2) = 1+ D + D2 + D3 a. Draw the.

Presentation transcript:

Outline Transmitters (Chapters 3 and 4, Source Coding and Modulation) (week 1 and 2) Receivers (Chapter 5) (week 3 and 4) Received Signal Synchronization (Chapter 6) (week 5) Channel Capacity (Chapter 7) (week 6) Error Correction Codes (Chapter 8) (week 7 and 8) Equalization (Bandwidth Constrained Channels) (Chapter 10) (week 9) Adaptive Equalization (Chapter 11) (week 10 and 11) Spread Spectrum (Chapter 13) (week 12) Fading and multi path (Chapter 14) (week 12)

Digital Communication System: Information per bit increases Bandwidth efficiency increases noise immunity increases Transmitter Receiver

Transmitters (week 1 and 2) Information Measures Vector Quantization Delta Modulation QAM

Receivers (Chapter 5) (week 3 and 4) Optimal Receivers Probability of Error

Received Signal Synchronization (Chapter 6) (week 5 and 6) Receivers Carrier Phase Estimation Phase Locked Loops Decision Directed Loops Symbol Timing Estimation

Channel Capacity (Chapter 7) (week 7) Discrete Memoryless Channels

Error Correction Codes (Chapter 8) Trellis/Convolution Codes Trellis Codes and QAM NRZI code with memory L=1 Trellis for NRZI Convolution Code Generator Viterbi Algorithm QAM set partition via convolution code 8 state Trellis for rectangular QAM

Signals for Band Limited Channels (Chapter 9) (week 10) Raised cosine

Equalization (Chapter 10 and 11) (week 11 and 12) Receivers for Intersymbol Interference Decision Feedback Equalization LMS Algorithm Adaptive Decision Feedback Equalizer