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CHAPTER 6. INFORMATION COMMUNICATION
6.10 Baseband Communication12 We use analog communication techniques for analog message signals, like music, speech, and television. Transmission and reception of analog signals using analog results in an inherently noisy received signal (assuming the channel adds noise, which it almost certainly does). The simplest form of analog communication is baseband communication. Point of Interest: We use analog communication techniques for analog message signals, like music, speech, and television. Transmission and reception of analog signals using analog results in an inherently noisy received signal (assuming the channel adds noise, which it almost certainly does). Here, the transmitted signal equals the message times a transmitter gain. x (t) = Gm (t)
(6.27)
An example, which is somewhat out of date, is the wireline telephone system. You don’t use baseband communication in wireless systems simply because low-frequency signals do not radiate well. The receiver in a baseband system can’t do much more than filter the received signal to remove out-of-band noise (interference is small in wireline channels). Assuming the signal occupies a bandwidth of W Hz (the signal’s spectrum extends from zero to W ), the receiver applies a lowpass filter having the same bandwidth, as shown in Figure 6.5.
r(t)
LPF W
^ m(t)
Figure 6.5: The receiver for baseband communication systems is quite simple: a lowpass filter having the same bandwidth as the signal.
We use the signal-to-noise ratio of the receiver’s output m b (t) to evaluate any analog-message communication system. Assume that the channel introduces an attenuation α and white noise of spectral height N0 . The filter does not affect the signal component—we assume its gain is unity—but does filter the 2 noise, removing frequency components above W Hz. In the filter’s output, the received signal power equals α2 G2 power (m) and the noise power N0 W , which gives a signal-to-noise ratio of SNRbaseband =
α2 G2 power (m) N0 W
(6.28)
The signal term power (m) will be proportional to the bandwidth W ; thus, in baseband communication the signal-to-noise ratio varies only with transmitter gain and channel attenuation and noise level.
6.11 Modulated Communication13 Especially for wireless channels, like commercial radio and television, but also for wireline systems like cable television, an analog message signal must be modulated: The transmitted signal’s spectrum occurs at much higher frequencies than those occupied by the signal. Point of Interest: We use analog communication techniques for analog message signals, like music, speech, and television. Transmission and reception of analog signals using analog results in an inherently noisy received signal (assuming the channel adds noise, which it almost certainly does). 12 This 13 This
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