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ECEN 621, Prof. Xi Zhang ECEN 621-600 “ Mobile Wireless Networking ” Course Materials: Papers, Reference Texts: Bertsekas/Gallager, Stuber, Stallings,

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Presentation on theme: "ECEN 621, Prof. Xi Zhang ECEN 621-600 “ Mobile Wireless Networking ” Course Materials: Papers, Reference Texts: Bertsekas/Gallager, Stuber, Stallings,"— Presentation transcript:

1 ECEN 621, Prof. Xi Zhang ECEN 621-600 “ Mobile Wireless Networking ” Course Materials: Papers, Reference Texts: Bertsekas/Gallager, Stuber, Stallings, etc Grading (Tentative): HW: 20%, Projects: 40%, Exam-1:20%, Exam-II:20% Lecture notes and Paper Reading Lists: available on-line Class Website: http://ece.tamu.edu/~xizhang/ECEN621/start.php Research Interests and Projects: URL:http://ece.tamu.edu/~xizhang Instructor: Professor Xi Zhang E-mail: xizhang@ece.tamu.edu Office: WERC 331

2 ECEN 621, Prof. Xi Zhang The Fundamentals of Transmission Lecture notes 2.

3 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Electronic Signals  Function of time  Can also be expressed as a function of frequency  Signal consists of components of different frequencies

4 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Time-Domain Concepts  Analog signal - signal intensity varies in a smooth fashion over time  No breaks or discontinuities in the signal  Digital signal - signal intensity maintains a constant level for some period of time and then changes to another constant level  Periodic signal - analog or digital signal pattern that repeats over time  s(t +T ) = s(t )  where T is the period of the signal

5 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Time-Domain Concepts  Aperiodic signal - analog or digital signal pattern that doesn't repeat over time  Peak amplitude (A) - maximum value or strength of the signal over time; typically measured in volts  Frequency (f )  Rate, in cycles per second, or Hertz (Hz) at which the signal repeats

6 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Time-Domain Concepts  Period (T ) - amount of time it takes for one repetition of the signal  T = 1/f  Phase (  ) - measure of the relative position in time within a single period of a signal  Wavelength ( ) - distance occupied by a single cycle of the signal  Or, the distance between two points of corresponding phase of two consecutive cycles

7 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Sine Wave Parameters  General sine wave  s(t ) = A sin(2  ft +  )  Figure 2.3 shows the effect of varying each of the three parameters  (a) A = 1, f = 1 Hz,  = 0; thus T = 1s  (b) Reduced peak amplitude; A=0.5  (c) Increased frequency; f = 2, thus T = ½  (d) Phase shift;  =  /4 radians (45 degrees)  note: 2  radians = 360° = 1 period

8 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Sine Wave Parameters

9 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Time vs. Distance  When the horizontal axis is time, as in Figure 2.3, graphs display the value of a signal at a given point in space as a function of time  With the horizontal axis in space, graphs display the value of a signal at a given point in time as a function of distance  At a particular instant of time, the intensity of the signal varies as a function of distance from the source

10 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Frequency-Domain Concepts  Fundamental frequency - when all frequency components of a signal are integer multiples of one frequency, it’s referred to as the fundamental frequency  Spectrum - range of frequencies that a signal contains  Absolute bandwidth - width of the spectrum of a signal  Effective bandwidth (or just bandwidth) - narrow band of frequencies that most of the signal’s energy is contained in

11 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Frequency-Domain Concepts  Any electromagnetic signal can be shown to consist of a collection of periodic analog signals (sine waves) at different amplitudes, frequencies, and phases (Fourier Transform)  The period of the total signal is equal to the period of the fundamental frequency

12 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Relationship between Data Rate and Bandwidth  The greater the bandwidth, the higher the information- carrying capacity  Conclusions  Any digital waveform will have infinite bandwidth  BUT the transmission system will limit the bandwidth that can be transmitted  AND, for any given medium, the greater the bandwidth transmitted, the greater the cost  HOWEVER, limiting the bandwidth creates distortions

13 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Data Communications Terms  Data - entities that convey meanings, messages, or information  Signals - electric or electromagnetic representations of data  Transmission - communication of data by the propagation and processing of signals

14 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Examples of Analog and Digital Data  Analog  Video Signal  Audio or Voice Signal  Digital  Text formatted as binary digits  Integers formatted as binary digits

15 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Analog Signals  A continuously varying electromagnetic wave that may be propagated over a variety of media (e.g., air, water, and deep space), depending on frequency  Examples of media:  Copper wire media (twisted pair and coaxial cable)  Fiber optic cable  Atmosphere or space propagation  Analog signals can propagate BOTH analog and digital data

16 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Digital Signals  A sequence of voltage pulses that may be transmitted over a copper wire medium  Generally cheaper than analog signaling  Less susceptible (subject) to noise interference  Suffer more from attenuation  Digital signals can propagate both analog and digital data

17 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Analog Signaling

18 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Digital Signaling

19 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Reasons for Choosing Data and Signal Combinations  Digital data, digital signal  Equipment for encoding is less expensive than digital-to- analog equipment  Analog data, digital signal  Conversion permits use of modern digital transmission and switching equipment  Digital data, analog signal  Some transmission media will only propagate analog signals  Examples include optical fiber and satellite  Analog data, analog signal  Analog data easily converted to analog signal

20 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Analog Transmission  Transmit analog signals without regard to content  Attenuation limits length of transmission link  Cascaded amplifiers boost signal’s energy for longer distances but cause distortion  Analog data can tolerate distortion  Introduces errors in digital data

21 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Digital Transmission  Concerned with the content of the signal  Attenuation endangers integrity of data  Digital Signal  Repeaters achieve greater distance  Repeaters recover the signal and retransmit  Analog signal carrying digital data  Retransmission device recovers the digital data from analog signal  Generates new, clean analog signal

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