Presentation is loading. Please wait.

Presentation is loading. Please wait.

Data Communication, Lecture91 PAM and QAM. Data Communication, Lecture92 Homework 1: exercises 1, 2, 3, 4, 9 from chapter1 deadline: 85/2/19.

Published byPreston Miles Modified over 8 years ago

Similar presentations

Presentation on theme: "Data Communication, Lecture91 PAM and QAM. Data Communication, Lecture92 Homework 1: exercises 1, 2, 3, 4, 9 from chapter1 deadline: 85/2/19."— Presentation transcript:

1 Data Communication, Lecture91 PAM and QAM

2 Data Communication, Lecture92 Homework 1: exercises 1, 2, 3, 4, 9 from chapter1 deadline: 85/2/19

3 Data Communication, Lecture93

4 4

5 5

6 6

7 7

8 8

9 9

10 10

11 Data Communication, Lecture911

12 Data Communication, Lecture912

13 Data Communication, Lecture913

14 Data Communication, Lecture914

15 Data Communication, Lecture915

16 Data Communication, Lecture916 Constellation Performance Measures

17 Data Communication, Lecture917

18 Data Communication, Lecture918 coding gain (or loss ), of a particular constellation with data symbols { x i }, i=0,...,M−1 with respect to another constellation with data symbols {~ x i } is defined as where both constellations are used to transmit ¯b bits of information per dimension.

19 Data Communication, Lecture919

20 Data Communication, Lecture920 The Filtered (One-Shot) AWGN Channel

21 Data Communication, Lecture921

22 Data Communication, Lecture922 Note that: The set of N functions {Φ n (t)} n=1,...,N is not necessarily orthonormal. For the channel to convey any and all constellations of M messages for the signal set {x i (t)}, the basis set {Φ n (t)} must be linearly independent.

23 Data Communication, Lecture923

24 Data Communication, Lecture924

25 Data Communication, Lecture925 Additive Self-Correlated Noise

26 Data Communication, Lecture926 In practice, additive noise is often Gaussian, but its power spectral density is not flat. Engineers often call this type of noise “self- correlated” or “colored”.

27 Data Communication, Lecture927

28 Data Communication, Lecture928

29 Data Communication, Lecture929 Example: QPSK with correlated Noise One can compute that:

30 Data Communication, Lecture930

31 Data Communication, Lecture931

32 Data Communication, Lecture932 Thus, the optimum detector for this channel with self-correlated Gaussian noise has larger minimum distance than for the white noise case, illustrating the important fact that having correlated noise is sometimes advantageous.

Download ppt "Data Communication, Lecture91 PAM and QAM. Data Communication, Lecture92 Homework 1: exercises 1, 2, 3, 4, 9 from chapter1 deadline: 85/2/19."

Similar presentations

Digital Communication

Digital Communication
Chapter 3. Noise Husheng Li The University of Tennessee.

Chapter 3. Noise Husheng Li The University of Tennessee.
Combined QPSK and MFSK Communication over an AWGN Channel Jennifer Christensen South Dakota School of Mines & Technology Advisor: Dr. Komo.

Combined QPSK and MFSK Communication over an AWGN Channel Jennifer Christensen South Dakota School of Mines & Technology Advisor: Dr. Komo.
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.
Partial Parallel Interference Cancellation Based on Hebb Learning Rule Taiyuan University of Technology Yanping Li.

Partial Parallel Interference Cancellation Based on Hebb Learning Rule Taiyuan University of Technology Yanping Li.
Elements of a Digital Communication System

Elements of a Digital Communication System
3F4 Data Transmission Introduction

3F4 Data Transmission Introduction
Digital Communications I: Modulation and Coding Course Spring - 2013 Jeffrey N. Denenberg Lecture 3b: Detection and Signal Spaces.

Digital Communications I: Modulation and Coding Course Spring Jeffrey N. Denenberg Lecture 3b: Detection and Signal Spaces.
Digital Communications I: Modulation and Coding Course

Digital Communications I: Modulation and Coding Course
Digital communication - vector approach Dr. Uri Mahlab 1 Digital Communication Vector Space concept.

Digital communication - vector approach Dr. Uri Mahlab 1 Digital Communication Vector Space concept.
Matched Filters By: Andy Wang.

Matched Filters By: Andy Wang.
1 Digital Communication Systems Lecture-3, Prof. Dr. Habibullah Jamal Under Graduate, Spring 2008.

1 Digital Communication Systems Lecture-3, Prof. Dr. Habibullah Jamal Under Graduate, Spring 2008.
Chapter 8. Impact of Noise Husheng Li The University of Tennessee.

Chapter 8. Impact of Noise Husheng Li The University of Tennessee.
Digital Transmission through the AWGN Channel ECE460 Spring, 2012.

Digital Transmission through the AWGN Channel ECE460 Spring, 2012.
EE 6332, Spring, 2014 Wireless Communication Zhu Han Department of Electrical and Computer Engineering Class 12 Feb. 24 nd, 2014.

EE 6332, Spring, 2014 Wireless Communication Zhu Han Department of Electrical and Computer Engineering Class 12 Feb. 24 nd, 2014.
Carrier-Amplitude modulation In baseband digital PAM: (2d - the Euclidean distance between two adjacent points)

Carrier-Amplitude modulation In baseband digital PAM: (2d - the Euclidean distance between two adjacent points)
Modern Digital and Analog Communication Systems Lathi Copyright © 2009 by Oxford University Press, Inc. C H A P T E R 11 PERFORMANCE ANALYSIS OF DIGITAL.

Modern Digital and Analog Communication Systems Lathi Copyright © 2009 by Oxford University Press, Inc. C H A P T E R 11 PERFORMANCE ANALYSIS OF DIGITAL.
Modulation Technique.

Modulation Technique.
Modulation, Demodulation and Coding Course

Modulation, Demodulation and Coding Course
DIGITAL COMMUNICATION Error - Correction A.J. Han Vinck.

DIGITAL COMMUNICATION Error - Correction A.J. Han Vinck.

Similar presentations

Ads by Google