16 wireless wans_cellular_telephone_and_satellite_networks
TRANSCRIPT
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16.1
Chapter 16Wireless WANs:
Cellular Telephoneand Satellite Networks
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
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16.2
16-1 CELLULAR TELEPHONY16-1 CELLULAR TELEPHONY
Cellular telephonyCellular telephony is designed to provide is designed to provide communications between two moving units, called communications between two moving units, called mobile stations (MSs), or between one mobile unit and mobile stations (MSs), or between one mobile unit and one stationary unit, often called a land unit. one stationary unit, often called a land unit.
Frequency-Reuse PrincipleTransmittingReceivingRoamingFirst GenerationSecond GenerationThird Generation
Topics discussed in this section:Topics discussed in this section:
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16.3
Figure 16.1 Cellular system
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16.4
Figure 16.2 Frequency reuse patterns
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16.5
AMPS is an analog cellular phone system using FDMA.
Note
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16.6
Figure 16.3 Cellular bands for AMPS
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16.7
Figure 16.4 AMPS reverse communication band
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16.8
Figure 16.5 Second-generation cellular phone systems
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16.9
Figure 16.6 D-AMPS
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16.10
D-AMPS, or IS-136, is a digital cellular phone system using TDMA and FDMA.
Note
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16.11
Figure 16.7 GSM bands
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16.12
Figure 16.8 GSM
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16.13
Figure 16.9 Multiframe components
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16.14
GSM is a digital cellular phone system using TDMA and FDMA.
Note
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16.15
Figure 16.10 IS-95 forward transmission
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16.16
Figure 16.11 IS-95 reverse transmission
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16.17
IS-95 is a digital cellular phone system using CDMA/DSSS and FDMA.
Note
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16.18
The main goal of third-generation cellular telephony is to provide
universal personal communication.
Note
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16.19
Figure 16.12 IMT-2000 radio interfaces
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16.20
16-2 SATELLITE NETWORKS16-2 SATELLITE NETWORKS
A satellite network is a combination of nodes, some of A satellite network is a combination of nodes, some of which are satellites, that provides communication from which are satellites, that provides communication from one point on the Earth to another. A node in the one point on the Earth to another. A node in the network can be a satellite, an Earth station, or an end-network can be a satellite, an Earth station, or an end-user terminal or telephone. user terminal or telephone.
OrbitsFootprintThree Categories of SatellitesGEO SatellitesMEO SatellitesLEO Satellites
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16.21
Figure 16.13 Satellite orbits
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16.22
What is the period of the Moon, according to Kepler’s law?
Example 16.1
Here C is a constant approximately equal to 1/100. The period is in seconds and the distance in kilometers.
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16.23
Example 16.1 (continued)
SolutionThe Moon is located approximately 384,000 km above the Earth. The radius of the Earth is 6378 km. Applying the formula, we get.
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16.24
According to Kepler’s law, what is the period of a satellite that is located at an orbit approximately 35,786 km above the Earth?
Example 16.2
SolutionApplying the formula, we get
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16.25
This means that a satellite located at 35,786 km has a period of 24 h, which is the same as the rotation period of the Earth. A satellite like this is said to be stationary to the Earth. The orbit, as we will see, is called a geosynchronous orbit.
Example 16.2 (continued)
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16.26
Figure 16.14 Satellite categories
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16.27
Figure 16.15 Satellite orbit altitudes
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16.28
Table 16.1 Satellite frequency bands
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16.29
Figure 16.16 Satellites in geostationary orbit
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16.30
Figure 16.17 Orbits for global positioning system (GPS) satellites
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Figure 16.18 Trilateration
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Figure 16.19 LEO satellite system
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16.33
Figure 16.20 Iridium constellation
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16.34
The Iridium system has 66 satellites in six LEO orbits, each at an
altitude of 750 km.
Note
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16.35
Iridium is designed to provide direct worldwide voice and data
communication usinghandheld terminals, a service similar to cellular telephony but on a global scale.
Note
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16.36
Figure 16.20 Teledesic
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16.37
Teledesic has 288 satellites in 12 LEO orbits, each at an altitude of 1350 km.
Note