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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: Signals & Channels Lecture notes 3.

3 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks About Channel Capacity  Impairments, such as noise, limit data rate that can be achieved  For digital data, to what extent do impairments limit data rate?  Channel Capacity – the maximum rate at which data can be transmitted over a given communication path, or channel, under given conditions

4 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Concepts Related to Channel Capacity  Data rate - rate at which data can be communicated (bps)  Bandwidth (B) - the bandwidth of the transmitted signal as constrained by the transmitter and the nature of the transmission medium (Hertz)  Noise - average level of noise over the communications path  Error rate - rate at which errors occur  Error = transmit 1 but receive 0; transmit 0 but receive 1

5 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Nyquist Bandwidth  For binary signals (two voltage levels), the capacity is given by:  C = 2B  With multilevel signaling, the capacity is given by:  C = 2B log 2 M  M = number of discrete signal or voltage levels

6 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Signal-to-Noise Ratio  Ratio of the power in a signal to the power contained in the noise that’s present at a particular point in the transmission  Typically measured at a receiver (the point)  Signal-to-noise ratio (SNR, or S/N)  A high SNR means a high-quality signal, low number of required intermediate repeaters  SNR sets upper bound on achievable data rate

7 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Shannon Capacity Formula  Equation:  Represents theoretical maximum that can be achieved  In practice, only much lower rates achieved  Formula assumes white noise (thermal noise)  Impulse noise is not accounted for  Attenuation distortion or delay distortion not accounted for

8 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Example of Nyquist and Shannon Formulations  Spectrum of a channel between 3 MHz and 4 MHz ; SNR dB = 24 dB  Using Shannon’s formula

9 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Example of Nyquist and Shannon Formulations  How many signaling levels are required?

10 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Classifications of Transmission Media  Transmission Medium  Physical path between transmitter and receiver  Guided Media  Waves are guided along a solid medium  E.g., copper twisted pair, copper coaxial cable, optical fiber  Unguided Media  Provides means of transmission but does not guide electromagnetic signals  Usually referred to as wireless transmission  E.g., atmosphere, outer space

11 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Unguided Media  Transmission and reception are achieved by means of an antenna  Configurations for wireless transmission  Directional  Omnidirectional

12 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks General Frequency Ranges  Microwave frequency range  1 GHz to 40 GHz  Directional beams possible  Suitable for point-to-point transmission  Used for satellite communications  Radio frequency range  30 MHz to 1 GHz  Suitable for omnidirectional applications  Infrared frequency range  Roughly, 3x10 11 to 2x10 14 Hz  Useful in local point-to-point multipoint applications within confined areas

13 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Terrestrial Microwave  Description of common microwave antenna  Parabolic "dish", 3 m in diameter  Fixed rigidly and focuses a narrow beam  Achieves line-of-sight transmission to receiving antenna  Located at substantial heights above ground level  Applications  Long haul telecommunications service  Short point-to-point links between buildings

14 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Satellite Microwave  Description of communication satellite  Microwave relay station  Used to link two or more ground-based microwave transmitter/receivers  Receives transmissions on one frequency band (uplink), amplifies or repeats the signal, and transmits it on another frequency (downlink)  Applications  Television distribution  Long-distance telephone transmission  Private business networks

15 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Broadcast Radio  Description of broadcast radio antennas  Omnidirectional  Antennas not required to be dish-shaped  Antennas need not be rigidly mounted to a precise alignment  Applications  Broadcast radio  VHF and part of the UHF band; 30 MHZ to 1GHz  Covers FM radio and UHF and VHF television

16 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Multiplexing  In general, the capacity of transmission medium usually significantly exceeds the capacity required for transmission of a single signal  Multiplexing - carrying multiple signals on a single medium  More efficient use of transmission medium

17 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Multiplexing

18 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Reasons for Widespread Use of Multiplexing  Cost per kbps of transmission facility declines with an increase in the data rate  Cost of transmission and receiving equipment declines with increased data rate  Most individual data communicating devices require relatively modest data rate support

19 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Multiplexing Techniques  Frequency-division multiplexing (FDM)  Takes advantage of the fact that the useful bandwidth of the medium exceeds the required bandwidth of a given signal  Time-division multiplexing (TDM)  Takes advantage of the fact that the achievable bit rate of the medium exceeds the required data rate of a digital signal

20 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Frequency-division Multiplexing

21 Prof. Xi Zhang ECEN 621, Mobile Wireless Networks Time-division Multiplexing

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