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CHAPTER 5

CHAPTER 5. WIRELESS COMMUNICATIONS. Introduction. Wireless Communications system in which electromagnetic waves carry a signal through atmospheric space rather than along a wire

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CHAPTER 5

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  1. CHAPTER 5 WIRELESS COMMUNICATIONS Introduction to Telecommunications by Gokhale

  2. Introduction • Wireless • Communications system in which electromagnetic waves carry a signal through atmospheric space rather than along a wire • Most systems use radio frequency (RF, which ranges from 3 kHz to 300 GHz) or infrared (IR, which ranges from 3 THz to 430 THz) waves • IR products do not require any form of licensing by the FCC

  3. Timeline of Major Developments • Mobile Telephone System (MTS) • Introduced in 1946 • Simplex (one-way transmission) and manual operation • Improved Mobile Telephone System (IMTS) • Introduced in 1969 using a 450 MHz band • Advanced Mobile Phone Service (AMPS) • Introduced in 1983 • First system to employ a “cellular” concept

  4. Cellular Topology • Cellular network: • Series of overlapping hexagonal cells in a honeycomb pattern • Cellular network components • Base Station:Transmitter, Receiver, Controller, Antenna • Cell: Base station’s span of coverage • Mobile Switching Center: Contains all of the control and switching elements to connect the caller to the receiver, even as the receiver moves from one cell to another

  5. Personal Communications Systems (PCS) • PCS is also called Personal Communications Networks (PCN) • Goal of PCS is to provide integrated voice, data and video communications • Three categories of PCS: • Broadband: cellular and cordless handsets • Narrowband: enhanced paging functions • Unlicensed: allows short distance operation

  6. Key features of PCS Variable cell size Hierarchical cell structure (picocell, microcell, macrocell, supermacrocell) Hierarchical Cell Structure

  7. Cells

  8. Analog Access • Analog Cellular Systems • First generation system • Based on FDMA (Frequency Division Multiple Access), where frequency band is divided into a number of channels. Each channel carries only one voice conversation at a time. • AMPS operates on 800 MHz or 1800 MHz • Advantages: • Widest coverage • Limitations: • Inadequate to satisfy the increasing demand • Poor security • Not optimized for data

  9. FDMA

  10. Digital Access • D-AMPS (Digital-AMPS) • TDMA (Time Division Multiple Access) • CDMA (Code Division Multiple Access) Digital wireless technologies provide greater system capacity.

  11. TDMA • TDMA • Second generation system • Enables users to access the whole channel bandwidth for a fraction of the time, called slot, on a periodic basis • Has applications in satellite communications • Advantages • Improved capacity

  12. TDMA

  13. CDMA • CDMA • Third generation system • Separates users by assigning them digital codes within a broad range of the radio frequency • First technology to use soft-handoff • Employs spread spectrum technique • Advantages • Improved capacity, coverage, voice quality, and immunity from interference

  14. An Overview of Cellular Technologies

  15. Spread Spectrum Technique: FHSS • Frequency Hopping Spread Spectrum (FHSS) • Resists interference by jumping rapidly from frequency to frequency in a pseudo-random way • Advantage • Increases the total amount of available bandwidth through the assignment of multiple hopping sequences within the same physical area • More flexible than DSSS • Application • In large facilities especially with multiple floors

  16. Spread Spectrum Technique: DSSS • Direct Sequence Spread Spectrum (DSSS) • Resists interference by mixing in a series of pseudo-random bits with the actual data • Advantage • If bits are damaged in transmission, the original data can be recovered as opposed to having to be retransmitted • Application • Is substituted for point-to-point or multi-point connectivity to bridge LAN segments • Limitation • Roaming capabilities are less robust

  17. Spread Spectrum Technique: CDPD • Cellular Digital Packet Data • Allows for a packet of information to be transmitted in between voice telephone calls • Enables data specific technology to be tacked onto existing cellular telephone infrastructure

  18. Wireless Applications • Cellular Phone • High mobility and narrow bandwidth (20 to 30 kHz) • Cordless Phone • Low mobility and narrow bandwidth (20 to 30 kHz) • Wireless LAN • Low mobility and high bandwidth (typically 10 Mbps) • Wireless Application Protocol (WAP) is a standard for wireless data delivery, loading web pages, and navigation

  19. The Wireless Spectrum

  20. Narrowband, Broadband, and Spread Spectrum Signals • Narrowband - a transmitter concentrates the signal energy at a single frequency or in a very small range of frequencies. • Broadband - a type of signaling that uses a relatively wide band of the wireless spectrum. • Spread spectrum - the use of multiple frequencies to transmit a signal.

  21. Cellular Communications • Mobile telephone service - a system for providing telephone services to multiple, mobile receivers using two-way radio communication over a limited number of frequencies. • Mobile wireless evolution: • First generation • Second generation • Third generation

  22. Cellular Call Completion • Components of a signal: • Mobile Identification Number (MIN) - an enclosed representation of the mobile telephone’s 10-digit telephone number. • Electronic Serial Number (ESN) - a fixed number assigned to the telephone by the manufacturer. • System Identification Number (SID) - a number assigned to the particular wireless carrier to which the telephone’s user has subscribed.

  23. Cellular Call Completion

  24. Call Completion

  25. Advanced Mobile Pone Service (AMPS) • A first generation cellular technology that encodes and transmits speech as analog signals.

  26. Time Division Multiple Access (TDMA)

  27. Code Division Multiple Access (CDMA) • Each voice signal is digitized and assigned a unique code, and then small components of the signal are issued over multiple frequencies using the spread spectrum technique.

  28. Global System for Mobile Communications (GSM) • A version of time division multiple access (TDMA) technology, because it divides frequency bands into channels and assigns signals time slots within each channel. • Makes more efficient use of limited bandwidth than the IS-136 TDMA standard common in the United States. • Makes use of silences in a phone call to increase its signal compression, leaving more open time slots in the channel.

  29. Emerging Third Generation (3G) Technologies • The promise of these technologies is that a user can access all her telecommunication services from one mobile phone. • CDMA2000 - a packet switched version of CDMA. • Wideband CDMA (W-CDMA) - based on technology developed by Ericson, is also packet-based and its maximum throughput is also 2.4 Mbps.

  30. Wireless Local Loop (WLL) • A generic term that describes a wireless link used in the PSTN to connect LEC central offices with subscribers. • Acts the same as a copper local loop. • Used to transmit both voice and data signals.

  31. Local Multipoint Distribution Service (LMDS) • A point-to-multipoint, fixed wireless technology that was conceived to supply wireless local loop service in densely populated urban areas and later on a trial basis to issue television signals. • A disadvantage is that its use of very high frequencies limits its signal’s transmission distance to no more than 4km between antennas.

  32. Multipoint Multichannel Distribution System (MMDS) • Uses microwaves with frequencies in the 2.1 to 2.7 GHz range of the wireless spectrum. • One advantage is that because of its lower frequency range, MMDS is less susceptible to interference. • MMDS does not require a line-of-sight path between the transmitter and receiver.

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