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Transcript of Chapter 6 Bandwidth Utilization Copyright © The McGraw-Hill Companies, Inc. Permission required for...
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Chapter 6
BandwidthUtilization
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
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Chapter 6: Outline
6.1 6.1 MULTIPLEXINGMULTIPLEXING
6.2 6.2 SPREAD SPECTRUMSPREAD SPECTRUM
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6.3
6-1 MULTIPLEXING6-1 MULTIPLEXING
Multiplexing is the set of techniques that Multiplexing is the set of techniques that allows the simultaneous transmission of allows the simultaneous transmission of multiple signals across a single data link. multiple signals across a single data link.
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6.4
Figure 6.1: Dividing a link into channels
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6.5
Figure 6.2: Categories of multiplexing
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6.6
6.6.1 Frequency-Division Multiplexing6.6.1 Frequency-Division Multiplexing
Frequency-division multiplexing (FDM) is an analog technique that can be applied when the bandwidth of a link (in hertz) is greater than the combined bandwidths of the signals to be transmitted.
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6.7
Figure 6.3: Frequency-division multiplexing
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6.8
Figure 6.4: FDM Process
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6.9
Figure 6.5: FDM demultiplexing example
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Assume that a voice channel occupies a bandwidth of 4 kHz. We need to combine three voice channels into a link with a bandwidth of 12 kHz, from 20 to 32 kHz. Show the configuration, using the frequency domain. Assume there are no guard bands.
Example 6.1
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6.11
Figure 6.6: Example 6.1
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Five channels, each with a 100-kHz bandwidth, are to be multiplexed together. What is the minimum bandwidth of the link if there is a need for a guard band of 10 kHz between the channels to prevent interference?
Example 6.2
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6.13
Figure 6.7: Example 6.2
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Figure 6.8: Example 6.3
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6.15
Figure 6.9: Analog hierarchy
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The Advanced Mobile Phone System (AMPS) uses two bands. The first band of 824 to 849 MHz is used for sending, and 869 to 894 MHz is used for receiving. Each user has a bandwidth of 30 kHz in each direction. The 3-kHz voice is modulated using FM, creating 30 kHz of modulated signal. How many people can use their cellular phones simultaneously?.
Example 6.4
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The Advanced Mobile Phone System (AMPS) uses two bands. The first band of 824 to 849 MHz is used for sending, and 869 to 894 MHz is used for receiving.
25MHz send25MHz receive
Example 6.4
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The Advanced Mobile Phone System (AMPS) uses two bands. The first band of 824 to 849 MHz is used for sending, and 869 to 894 MHz is used for receiving. Each user has a bandwidth of 30 kHz in each direction. The 3-kHz voice is modulated using FM, creating 30 kHz of modulated signal. How many people can use their cellular phones simultaneously?.
Example 6.4
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The Advanced Mobile Phone System (AMPS) uses two bands. The first band of 824 to 849 MHz is used for sending, and 869 to 894 MHz is used for receiving. Each user has a bandwidth of 30 kHz in each direction. The 3-kHz voice is modulated using FM, creating 30 kHz of modulated signal. How many people can use their cellular phones simultaneously?.
Example 6.4
SolutionEach band is 25 MHz. If we divide 25 MHz by 30 kHz, we get 833.33. In reality, the band is divided into 832 channels. Of these, 42 channels are used for control, which means only 790 channels are available for cellular phone users.
6.19
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6.6.2 Wavelength-Division Multiplexing6.6.2 Wavelength-Division Multiplexing
Wavelength-division multiplexing (WDM) is designed to use the high-data-rate capability of fiber-optic cable.
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6.6.2 Wavelength-Division Multiplexing6.6.2 Wavelength-Division Multiplexing
The optical fiber data rate is higher than the data rate of metallic transmission cable, but using a fiber-optic cable for a single line wastes the available bandwidth. Multiplexing allows us to combine several lines into one.
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Figure 6.10: Wavelength-division multiplexing
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6.23
Figure 6.11: Prisms in wave-length division multiplexing
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6.6.3 Time-Division Multiplexing6.6.3 Time-Division Multiplexing
Time-division multiplexing (TDM) is a digital process that allows several connections to share the high bandwidth of a link.
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6.25
6.6.3 Time-Division Multiplexing6.6.3 Time-Division Multiplexing
Instead of sharing a portion of the bandwidth as in FDM, time is shared. Each connection occupies a portion of time in the link.
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Figure 6.12: TDM
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6.27
Figure 6.13: Synchronous time-division multiplexing
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In Figure 6.13, the data rate for each input connection is 1 kbps. If 1 bit at a time is multiplexed (a unit is 1 bit), what is the duration of6. each input slot,2. each output slot, and3. each frame?
Example 6.5
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Example 6.5 (continued)
SolutionWe can answer the questions as follows:6. The data rate of each input connection is 1 kbps. This means that the bit duration is 1/1000 s or 1 ms. The duration of the input time slot is 1 ms (same as bit duration).2. The duration of each output time slot is one-third of the input time slot. This means that the duration of the output time slot is 1/3 ms.3. Each frame carries three output time slots. So the duration of a frame is 3 × (1/3) ms, or 1 ms. The duration of a frame is the same as the duration of an input unit.
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Figure 6.14: Example 6.6
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Figure 6.15: Interleaving
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Figure 6.16: Example 6.8
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Figure 6.17: Example 6.9
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Variations to TDM
Empty slotsMulti-levelMultiple slotPulse stuffing
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Figure 6.18: Empty slots
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Figure 6.19: Multilevel multiplexing
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Figure 6.20: Multiple-slot multiplexing
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Figure 6.21: Pulse stuffing
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TDM Implementation
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Figure 6.23: Digital hierarchy
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Table 6.1: DS and T line rates
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Figure 6.24: T-1 line
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Figure 6.25: T-1 line frame structure
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Figure 6.26: TDM slot comparison
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6-2 SPREAD SPECTRUM6-2 SPREAD SPECTRUM
In some applications, we have some concerns In some applications, we have some concerns that outweigh bandwidth efficiency. that outweigh bandwidth efficiency.
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6-2 SPREAD SPECTRUM6-2 SPREAD SPECTRUM
In wireless applications, stations must be able In wireless applications, stations must be able to share the medium without interception by an to share the medium without interception by an eavesdropper and without being subject to eavesdropper and without being subject to jamming from a malicious intruder (Heddi jamming from a malicious intruder (Heddi Lemar) Lemar)
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Figure 6.27: Spread spectrum
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Figure 6.28: Frequency hopping spread spectrum (FHSS)
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Figure 6.29: Frequency selection in FHSS
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Figure 6.30: FHSS cycles
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Figure 6.31: Bandwidth sharing
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6.2.2 DSSS6.2.2 DSSS
The direct sequence spread spectrum (DSSS) technique also expands the bandwidth of the original signal.
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6.2.2 DSSS6.2.2 DSSS
In DSSS, we replace each data bit with n bits using a spreading code. In other words, each bit is assigned a code of n bits, called chips, where the chip rate is n times that of the data bit.
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Figure 6.32: DSSS
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Figure 6.32: DSSS example