Define spectral efficiency and explain how higher-order modulation affects required SNR and BER.

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Multiple Choice

Define spectral efficiency and explain how higher-order modulation affects required SNR and BER.

Explanation:
Spectral efficiency is the data rate achieved per unit of bandwidth, measured in bits per second per hertz. It tells you how efficiently a channel's spectrum is used to carry information. When you use higher-order modulation, you pack more bits into each symbol. For example, moving from QPSK to 16-QAM adds more bits per symbol, so for the same bandwidth you can transmit more bits each second, increasing spectral efficiency. But higher-order modulation also tightens the spacing between constellation points. That makes the system more sensitive to noise and distortions. To keep the same BER, you must raise the signal-to-noise ratio (or the energy per bit relative to noise). So, higher order increases data rate (better spectral efficiency) but requires a higher SNR to maintain the same BER.

Spectral efficiency is the data rate achieved per unit of bandwidth, measured in bits per second per hertz. It tells you how efficiently a channel's spectrum is used to carry information.

When you use higher-order modulation, you pack more bits into each symbol. For example, moving from QPSK to 16-QAM adds more bits per symbol, so for the same bandwidth you can transmit more bits each second, increasing spectral efficiency.

But higher-order modulation also tightens the spacing between constellation points. That makes the system more sensitive to noise and distortions. To keep the same BER, you must raise the signal-to-noise ratio (or the energy per bit relative to noise). So, higher order increases data rate (better spectral efficiency) but requires a higher SNR to maintain the same BER.

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