Plot a sine wave with decreasing frequency over time

30 visualizzazioni (ultimi 30 giorni)
Alison Huffman
Alison Huffman il 4 Ago 2021
Commentato: Eike Blechschmidt il 9 Ago 2021
Hi! I'm trying to plot a sine wave whose frequency decreases linearly over time (amplitude stays the same). This is my code:
clear all;
close all;
clc
period = 0.08;
for x = 0:4/1000:2
a = 5;
b = ((2*pi)/(period + 0.001));
c = 300;
d = 30;
c = c * -1;
output = a.*sin(b.*(x+c))+d;
plot(x, output, 'Linewidth', 2);
end
When I run the code, my plot is blank. I know Matlab doesn't require the use of a "for" loop when plotting sinusoids, however I'm unsure of how else I can modify the frequency over time if I don't use a "for" loop. Any help is much appreciated!

Accedi per rispondere a questa domanda.

Risposte (3)

Eike Blechschmidt
Eike Blechschmidt il 4 Ago 2021
How about
f_upper = 50;
f_lower = 10;
t = 0:0.01:10;
f = linspace(f_upper, f_lower, numel(t));
a = 10;
x = a * sin(2*pi*f.*t);
plot(t,x)
  1 Commento
darova
darova il 4 Ago 2021
Ran in:
DOesn't work well
f_upper = 5;
f_lower = 1;
t = 0:0.01:10;
f = linspace(f_upper, f_lower, numel(t));
a = 10;
x = a * sin(2*pi*f.*t);
plot(t,x)

Accedi per commentare.

darova
darova il 4 Ago 2021
Ran in:
Modify x coordinate
x = 0:.1:30;
y = sin(x);
x1 = x - 10*(x/max(x)).^2; % shift last point 10 units
plot(x1,y)
  5 Commenti
Mostra 3 commenti meno recenti
Eike Blechschmidt
Eike Blechschmidt il 9 Ago 2021
@darova changed the x-axis after calculating the sin. So I'm unsure (as in "I have not mathematically checked") if that solution is still expressable with a single sin function (you can always find multiple sin-waves to express any kind of time signal -> fourier transformation) which was my understanding of "is it still a sin function". My first solution does that as I only manipulate the input to the sin function. So I guess my question was not precise.

Accedi per commentare.

Eike Blechschmidt
Eike Blechschmidt il 5 Ago 2021
The easiest and correct is probably to use:
f1 = 50;
f2 = 10;
t = 0:0.001:10;
y = chirp(t,f1,t(end),f2);
plot(t, y);
  3 Commenti
Mostra 1 commento meno recente
Alison Huffman
Alison Huffman il 5 Ago 2021
Modificato: Alison Huffman il 5 Ago 2021
@Eike Blechschmidt Thank you very much, this is helpful. What calculation does the chirp function do? Is it just modifying the period of the sine wave?
Eike Blechschmidt
Eike Blechschmidt il 6 Ago 2021
Take a look at: Swept-frequency cosine - MATLAB chirp (mathworks.com).
You can also do
edit chirp
and scroll downt to
function yvalue = calculateChirp(f0,f1,t1,p,t,phi,isComplex)
It shows quite clear how the chirp is calculated.

Accedi per commentare.

Categorie

Scopri di più su Descriptive Statistics in Help Center e File Exchange

Tag

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by