Amplitude Modulation Examples
These examples demonstrate amplitude modulation (AM) techniques.
Compute Symbol Error Rate
In this example, you generate a random digital signal, modulate it, add noise, demodulate the noisy signal, and compute the symbol error rate. Then you plot the noisy, modulated data in a constellation diagram. The numerical results and plot may vary due to the random input data.
Create a random digital message and a constellation diagram System object™.
M = 16; % Alphabet size, 16-QAM x = randi([0 M-1],5000,1); cdpts = qammod(0:M-1,M); constDiag = comm.ConstellationDiagram( ... ReferenceConstellation=cdpts, ... XLimits=[-4 4], ... YLimits=[-4 4]);
Apply 16-QAM modulation and transmit the signal through an AWGN channel.
y = qammod(x,M); ynoisy = awgn(y,15,'measured');
Demodulate the noisy data,
ynoisy, to recover the message and check the symbol error rate.
z = qamdemod(ynoisy,M); [num,errrate] = symerr(x,z)
num = 79
errrate = 0.0158
Plot the noisy data in a constellation diagram. The signal reference constellation has 16 precisely located points, but the noise added to the transmitted signal causes the scatter plot to have a small cluster of points scattered around each reference constellation point.
Plot Noisy 16-QAM Constellation in Simulink
doc_qam_mod model uses the Rectangular QAM Modulator Baseband block to modulate random data and applies noise to the signal by using the AWGN Channel block. After passing the symbols through a noisy channel, the model produces a constellation diagram of the noisy data. When the noise level is increased, the constellation points show increased signal distortion.
A Random Integer Generator block generates integers in the range [0,15] for a modulator configured to apply 16-QAM. The modulated signal passes through an AWGN channel, and a constellation diagram displays the resulting symbols.
Run the model with Eb/N0 set to 20 dB in the AWGN channel.
Change the Eb/No from 20 dB to 10 dB. Observe the increase in the noise.
- Raised Cosine Transmit Filter | Raised Cosine Receive Filter | General QAM Modulator Baseband | General QAM Demodulator Baseband | M-PAM Modulator Baseband | M-PAM Demodulator Baseband | Rectangular QAM Modulator Baseband | Rectangular QAM Demodulator Baseband