Sine wave changing amplitude

2014 11월 6
3 답변
업데이트 시간: 2018 1월 22
조회 수: 10 (30일)

0 개 추천

Can you have a sine wave with varying amplitudes? I think this concept does not exist.

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Image Analyst
Image Analyst 2014년 11월 6일

1 개 추천

See attached demo (make_wav_file.m, below the plot) where I vary the amplitude and frequency of a sound wave.

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Tahariet Sharon
Tahariet Sharon 2017년 10월 27일
편집: Tahariet Sharon 2017년 10월 27일
Yes, but the initial qustion was about changing the amplitude of a SINE wave, not a complex wave.
Image Analyst
Image Analyst 2017년 10월 27일
My demo DOES modify the amplitude of a sine wave. Perhaps you overlooked this line of code in it:
% Construct the waveform:
y = int16(Amplitude .* sin(2.*pi.*t./T));
The amplitude array is changing according to 2 ways in my demo: an exponential decay and another lower frequency since wave, but you could alter the amplitude in whatever way you want. So I'm not sure why the "but" is in your comment.

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Orion
Orion 2014년 11월 6일
편집: Orion 2014년 11월 6일

0 개 추천

Sure you can.
a sine wave is defined by
y = A*sin(w*t+phi).
if you define A as a function(vector) dependant of the time, then you get a sine wave with varying amplitudes.
t = 0:0.01:10;
w = 8*pi;
phi = 0;
A = floor(t); % why not
y = A.*sin(w*t+phi);
plot(t,y);
I did it in matlab, but you can obviously do it with simulink (don't know what tool you're using).
Youssef Khmou
Youssef Khmou 2014년 11월 6일

0 개 추천

Nuchto, That is the amplitude modulation, it is possible to simulate that type of signals:
x=real(exp(j*2*pi*(0:0.1:10)));
y=rand(size(x)).*x;
subplot(1,2,1), plot(x);
subplot(1,2,2); plot(y): title(' random amplitude');

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Nuchto
Nuchto 2014년 11월 7일
Thanks, but once we mix two sine waves, it's a complex wave, isn't it? So it's not anymore a sine wave, it can be decomposed using FFT into two.
Youssef Khmou
Youssef Khmou 2014년 11월 7일
no, and fft is always complex.
Image Analyst
Image Analyst 2014년 11월 7일
But sometimes the imaginary part is zero. Here is the table:
Time Domain Frequency Domain
real hermitian (real=even, imag=odd)
imaginary anti-hermitian (real=odd, imag=even)
even even
odd odd
real and even real and even (i.e. cosine transform)
real and odd imaginary and odd (i.e. sine transform)
imaginary and even imaginary and even
imaginary and odd real and odd
Youssef Khmou
Youssef Khmou 2014년 11월 7일
Ok

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Nuchto
Nuchto
2014년 11월 6일

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chirag hb
chirag hb
2018년 1월 22일

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