NET 222: COMMUNICATIONS AND NETWORKS FUNDAMENTALS ( NET 222: COMMUNICATIONS AND NETWORKS FUNDAMENTALS (PRACTICAL PART) Tutorial 4 : Chapter 5 Data & computer.

Slides:



Advertisements
Similar presentations
Chapter 2 Fundamentals of Data and Signals
Advertisements

Data and Computer Communications
1 Computer Communication & Networks Lecture 6 Physical Layer: Digital Transmission Waleed Ejaz
1 Data Encoding – Chapter 5 (part 1) CSE 3213 Fall /2/2015 9:13 AM.
Chapter 5 – Signal Encoding and Modulation Techniques
Physical Layer – Part 2 Data Encoding Techniques
4.2 Digital Transmission Pulse Modulation (Part 2.1)
Computer Networks1 Chapter 4 Digital Transmission.
Chapter 2 Fundamentals of Data and Signals Data Communications and Computer Networks: A Business User’s Approach.
William Stallings Data and Computer Communications 7th Edition
Networks: Data Encoding1 Data Encoding Techniques.
Chapter Two Fundamentals of Data and Signals Data Communications and Computer Networks: A Business User's Approach Fifth Edition.
Physical Layer – Part 2 Data Encoding Techniques
Data Encoding Techniques
Chapter 2 Fundamentals of Data and Signals
1 Chapter 2 The Physical Layer The lowest layer of reference model. It defines the mechanical, electrical, and timing interfaces to the network.
Signal Encoding Lesson 05 NETS2150/2850
3. Encoding Techniques and Spread Spectrum
Chapter 2: Fundamentals of Data and Signals. 2 Objectives After reading this chapter, you should be able to: Distinguish between data and signals, and.
The Physical Layer, Encoding Schemes: -Physical Transmission of Bits- Chapter 2.
McGraw-Hill©The McGraw-Hill Companies, Inc., 2004 Chapter 4 Digital Transmission.
Pulse Modulation CHAPTER 4 Part 3
CEG3185 : Introduction to Computer Networks SEG3155 : Communication and Networking Tutorial 4.
Sami Al-Wakeel 1 Data Transmission and Computer Networks Data Encoding.
LECTURE 5 CT1303 LAN. DATA ENCODING Digital signal: is a sequence of discrete, discontinuous voltage pulses. Each pulse is a signal element Binary data.
Net 222: Communications and networks fundamentals (Practical Part)
DIGITAL-TO-DIGITAL CONVERSION
Aegis School of Telecommunication Telecom Systems I by Dr. M. G. Sharma, Phd. IIT Kharagpur Microwaves and Antennas.
Intan Shafinaz Mustafa Dept of Electrical Engineering
EE 3220: Digital Communication Dr. Hassan Yousif Ahmed Department of Electrical Engineering College of Engineering at Wadi Aldwasser Slman bin Abdulaziz.
Data Communications Chapter 5 Data Encoding.
© Janice Regan, CMPT 128, CMPT 371 Data Communications and Networking Digital Encoding.
Computer Communication & Networks Lecture # 05 Physical Layer: Signals & Digital Transmission Nadeem Majeed Choudhary
British Computer Society (BCS)
Chapter 4 Digital Transmission.
Digital Communications
DIGITAL-TO-DIGITAL CONVERSION In this section, we see how we can represent digital data by using digital signals. The conversion involves three.
9/12/ Digital Transmisison - Lin 1 CPET/ECET Digital Transmission Data Communications and Networking Fall 2004 Professor Paul I-Hai Lin Electrical.
EEC4113 Data Communication & Multimedia System Chapter 2: Baseband Encoding by Muhazam Mustapha, July 2010.
Chapter 2 The Physical Layer 1 The lowest layer of reference model. It defines the mechanical, electrical, and timing interfaces to the network.
COMMUNICATION SYSTEM EEEB453 Chapter 5 (Part V) DIGITAL TRANSMISSION-LINE ENCODING Intan Shafinaz Mustafa Dept of Electrical Engineering Universiti Tenaga.
Data and Computer Communications Chapter 1 – Data Communications, Data Networks, and the Internet.
Prof. Hosny Ibrahim Lecture 5. Data Communication IT 221 By: Prof. Hosny M. Ibrahim 2.
Chapter 2 The Physical Layer 1 The lowest layer of reference model. It defines the mechanical, electrical, and timing interfaces to the network.
Session 2. Objectives: By the end of this session, the student will be able to: Distinguish between data and signals. Cite the advantages of digital data.
1 Chapter 5 Encoding. 2 Figure 4-1 Transformation of Information to Signals.
Unit 1 Lecture 7 1. Bipolar Encoding Bipolar encoding, like RZ, uses three voltage levels: positive, negative and zero. Unlike RZ, however, the zero level.
Line Coding Schemes ‏Line coding is the process of converting binary data, a sequence of bits to a digital signal. Authors Phani Swathi Chitta Mentor Prof.
1 CSCD 433 Network Programming Fall 2013 Lecture 5a Digital Line Coding and other...
Chapter 4 (part 1_a) Baseband Data Transmission EKT 357 Digital Communications.
Digital Line Encoding Converting standard logic level to a form more suitable to telephone line transmission. Six factors must be considered when selecting.
Signal Encoding Techniques Ir. Hary Nugroho MT.. Data Transmission.
NET 222: COMMUNICATIONS AND NETWORKS FUNDAMENTALS ( NET 222: COMMUNICATIONS AND NETWORKS FUNDAMENTALS (PRACTICAL PART) Tutorial 5 : Chapter 8 Data & computer.
CSE 320 Data Communications
1 CSCD 433 Network Programming Fall 2016 Lecture 4 Digital Line Coding and other...
Data Communication and Networking Digital Transmission Chapter 4.
Introduction to Information Technologies
DIGITAL TRANSMISSION PART C
Net 222: Communications and networks fundamentals (Practical Part)
Lecture 1 Line Encoding 2nd semester
CT1303 LAN Rehab AlFallaj.
NET301 Lecture 5 10/18/2015 Lect5 NET301.
NET301 Lecture 5 10/18/2015 Lect5 NET301.
Lecture 9: Radix-64 Tutorial
NRZ-L: [Non-Return-to-Zero-Level]
Chapter 5. Data Encoding Digital Data, Digital Signals
Lecture 2: Line Encoding 1nd semester By: Adal ALashban.
Data Transmission And Digital Communication
EEC4113 Data Communication & Multimedia System Chapter 2: Baseband Encoding by Muhazam Mustapha, September 2012.
CS433 - Data Communication and Computer Networks
Presentation transcript:

NET 222: COMMUNICATIONS AND NETWORKS FUNDAMENTALS ( NET 222: COMMUNICATIONS AND NETWORKS FUNDAMENTALS (PRACTICAL PART) Tutorial 4 : Chapter 5 Data & computer communications Networks and Communication Department 1

Chapter 5 pages (Data & computer communications) Networks and Communication Department 2  Problems:  5.1  5.6  5.7  5.9  5.11

Question Networks and Communication Department 3  5.1 Which of the signals of Table 5.2 use differential encoding?

Answer Networks and Communication Department 4  NRZI, Differential Manchester.

Question Networks and Communication Department 5  5.6 For the bit stream , sketch the waveforms for each of the codes of Table 5.2. Assume that the signal level for the preceding bit for NRZI was high; the most recent preceding 1 bit (AMI) has a negative voltage;

Answer Networks and Communication Department 6

Question Networks and Communication Department 7  5.7 The waveform of Figure 5.25 belongs to a Manchester encoded binary data stream. Determine the beginning and end of bit periods (i.e., extract clock information) and give the data sequence.

Answer Networks and Communication Department 8

Question Networks and Communication Department 9  5.9 The bipolar-AMI waveform representing the binary sequence is transmitted over a noisy channel. The received waveform is shown in Figure 5.26; it contains a single error. Locate the position of this error and explain your answer.

Answer Networks and Communication Department 10  The error is at bit position 7, where there is a negative pulse. For AMI, positive and negative pulses are used alternately for binary 1. The pulse in position 1 represents the third binary 1 in the data stream and should have a positive value.

Question Networks and Communication Department 11  5.11 Given the bit pattern 01100, encode this data using ASK, BFSK, and BPSK.

Answer Networks and Communication Department 12

Any Questions ? The End 13 Networks and Communication Department

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2025 SlidePlayer.com. Inc. All rights reserved.