Introduction and History of Telecommunication
- 1. سمِب ﷲ الرحمن الرحيم International University of Africa (I.U.A) Faculty of Engineering Electronic & Electrical Department Communication - 1 إﻹﺗﺼﺎﻻت - 1 Semester -7 Lecture-1/ Introduction and History Instructor name: Mussaab I. Niass 2023 1
- 2. Course work: (40 Deg.) Labs (20) Exam-1 and 2 (20) Final Exam: (Electronic Exam) // paper based 60 Degree // Hint: Supplementary –Second round exam (100 Deg.) Office: 2nd floor, administration building, office # …, Faculty of Engineering, I.U.A, Khartoum, Sudan Instructor name: Mussaab I. Niass (BSC. I.U.A, 2010, 2nd Batch)( Telecommunication Eng., MSC. SUST. , 2015, Ph.D., ZZU, China, 2022). Email: [email protected] ,( Sorry no Telephones!!). 2
- 3. Course Content: Signal analysis, Fourier transforms, Power spectrum, Principles of modulation, amplitude, frequency, phase, composite and pulse modulation, voice digitization, pulse code modulation (PCM), delta modulation, linear predictive coding (LPC). Comparison of analog and digital transmission. Time, frequency and code division multiplexing, random signals and noise. Transmission systems for cable, radio, satellite and optical links. 3
- 4. Course objectives The main objective of this course is to understand and implement the basic analog communication techniques/ circuits with the help of theoretical and practical problem solving.
- 5. Course Outcomes At the end of the course, student is expected to understand: Basic working of communication system. Analog Modulation Techniques and their comparative analysis and applications suitability. Process of Modulation and Demodulation. Analog to digital conversion and Digital data transmission. Multiplexing Techniques. Basic working principles of existing and advanced communication technologies.
- 6. 6 References: 1. B. P Lathi, Modern Digital and Analog Communications Systems, 3rd Edition, 1998. 2. John G. Proakis, Communication Systems Engineering, 2nd 2001 . 3. Simon Haykin, Communication Systems, 4 th Edition,2000 . 4. Donald L. Schilling, Herbert Taub, Principles of Communication Systems, 2nd Edition. 5. Louis E. Frenzel, “Principles of Electronic Communication Systems”, McGraw-Hill, 3rd Edition, 2007.
- 7. Chapter 1 Introduction “To understand a science it is necessary to know its history” -Auguste Comte (1798-1857) “To understand a science it is necessary to know its history” -Auguste Comte (1798-1857)
- 8. Methods of communication: 1.Face to face 2.Signals 3.Written word (letters) 4.Electrical innovations: Telegraph Telephone Radio Television Internet (computer)
- 9. 9 1.1 Historical Background Telegraph 1844, Samuel Morse, “What hath God wrought” transmitted by Morse’s electric telegraph Washington D.C ~ Baltimore, Maryland Morse code : variable-length code (a dot, a dash, a letter space, a word space)
- 10. History Radio 1864, James Clerk Maxwell Formulated the electromagnetic theory of light Predicted the existence of radio waves 1887, Heinrich Hertz The existence of radio waves was confirmed experimentally 1894, Oliver Lodge Demo : wireless communication over a relatively short distance (150 yards) 10
- 11. 11 History 1901, Guglielmo Marconi Demo : wireless communication over a long distance (1700 miles, 2735.885 km) 1906, Reginald Fessenden Conducting the first radio broadcast 1918, Edwin H. Armstrong Invented the super-heterodyne radio receiver 1933, Edwin H. Armstrong Demonstrated another modulation scheme ( Frequency modulation)
- 12. History Telephone 1875, Alexander Graham Bell Invented the telephone 1897, A. B. Strowger Devised the automatic step-by-step switch 12
- 13. 13 Electronics 1904, John Abbrose Eleming Invented the vacuum-tube diode 1906, Lee de Forest Invented the vacuum-tube triode 1948, Walter H. Brattain, William Shockley (Bell Lab.) Invented the transistor 1958, Robert Noyce The first silicon integrated circuit (IC) produce Television 1928, Philo T. Farnsworth First all-electronic television system 1929, Vladimir K. Zworykin all-electronic television system 1939, BBC Broadcasting television service on a commercial basis
- 14. 14 1.2 Applications Broadcasting Which involves the use of a single powerful transmitter and numerous receivers that are relatively inexpensive to build point-to-point communications In which the communication process takes place over a link between a single transmitter and a single receiver.
- 15. Figure 1: A general model of all communication systems.
- 16. 16 Radio Broadcasting AM and FM radio • The voices are transmitted from broadcasting stations that operate in our neighborhood Television • Transmits visual images and voice
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- 19. Types of Communication Systems Electronic communications are classified according to whether they are 1. One-way (simplex) or two-way (full duplex or half duplex) transmissions 2. Analog or digital signals.
- 20. Simplex The simplest method of electronic communication is referred to as simplex. This type of communication is one-way. Examples are: Radio TV broadcasting Beeper (personal receiver)
- 21. Full Duplex Most electronic communication is two-way and is referred to as duplex. When people can talk and listen simultaneously, it is called full duplex. The telephone is an example of this type of communication.
- 22. Half Duplex The form of two-way communication in which only one party transmits at a time is known as half duplex. Examples are: Police, military, etc. radio transmissions Citizen band (CB) Family radio Amateur radio
- 23. 23 Point-to-point communication Satellite communication Built around a satellite in geostationary orbit, relies on line-of-sight radio propagation for the operation of an uplink and a downlink
- 24. 24 1.3 Primary Resources and Operational Requirements The systems are designed to provide for the efficient utilization of the two primary communication resources: Transmitted power Defined as: The average power of the transmitted signal Channel bandwidth Defined as: The width of the passband of the channel Classify communication channel Power-limited channel • Wireless channels • Satellite channels • Deep-space links Band-limited channel • Telephone channels • Television channels
- 25. 25 The design of a communication system boils down to a tradeoff between signal-to-noise ratio and channel bandwidth Improve system performance method Signal-to-noise ratio is increased to accommodate a limitation imposed on channel bandwidth Channel bandwidth is increased to accommodate a limitation imposed on signal-to-noise ratio.
- 26. 26 1.4 Understanding Theories of Communication Systems Modulation Theory Sinusoidal carrier wave Whose amplitude, phase, or frequency is the parameter chosen for modification by the information-bearing signal Periodic sequence of pulses Whose amplitude, width, or position is the parameter chosen for modification by the information-bearing signal The issues in modulation theory: Time-domain description of the modulation signal. Frequency-domain description of the modulated signal Detection of the original information-bearing signal and evaluation of the effect of noise on the receiver.
- 27. 27 Fourier Analysis Fourier analysis provides the mathematical basis for evaluating the following issues Frequency-domain description of a modulated signal, including its transmission bandwidth Transmission of a signal through a linear system exemplified by a communication channel or filter Correlation between a pair of signals Detection Theory Signal-detection problem The presence of noise Factors such as the unknown phase-shift introduced into the carrier wave due to transmission of the sinusoidally modulated signal over the channel
- 28. 28 1.5 Concluding Remarks Communication systems encompass many and highly diverse applications Radios, television, wireless communications, satellite communications, deep- space communications, telephony, data networks, Internet, and quite a few others The study of communication systems is a dynamic discipline, continually evolving by exploiting new technological innovations in other disciplines and responding to new social needs. Last but by no means least, communication systems touch out daily lives both at home and in the workplace, and our lives would be much poorer without the wide availability of communication devices that we take for granted.
- 29. Thank you …. 29