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How would you draw this in MATLAB?

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S. David
S. David 2012년 3월 4일
Hi,
I have an equation for the absorption coefficient in underwater acoustic communication channel (UWA) as:
alpha=0.11.*(f.^2./(1+f.^2))+44.*(f.^2./(4100+f))+2.75*10^-4.*f.^2+0.003;
where f is the frequency in kHz, and the absorption coefficient is given by dB/Km. I have a paper that plots this relation versus the frequency. It is straightforward as it appears at first, but when I tried to do it myself I have not gotten the same curve, even though the vertical axis in the paper is in dB/Km, which means it is just a direct substitution in the above equation. The question is why?
Thanks in advance
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Rick Rosson
Rick Rosson 2012년 3월 4일
Please post your MATLAB code.
Jan
Jan 2012년 3월 4일
All we know is the formula and that you do not get the "same curve". It might be a typo in the formula, another scaling of log-scaling, different colors or line styles, a post-script problem in the paper, etc. I do not see a chance to guess the source of the differences yet. Please post the necessary details.

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답변 (4개)

S. David
S. David 2012년 3월 5일
This is my code:
clear all;
clc;
f=10^3.*(0:1000);
alpha=(0.11.*((f.^2)./(1+f.^2))+44.*(f.^2./(4100+f))+(2.75.*10^(-4)).*(f.^2)+0.003);
plot(f,alpha)
The figure is Fig 1 at http://www.mit.edu/~millitsa/resources/pdfs/bwdx.pdf
Thanks
Jan
Jan 2012년 3월 5일
Unfortunately you still did not describe, which difference you mean. I guess it is the small wobble near to 60Hz.
When I read the explanation about the Figure 1 in this paper, I find at first the above formula and then:
This formula is generally valid for frequencies above a
few hundred Hz. For lower frequencies, the following
formula may be used:
10 log a(f) = 0.002+ 0.11*(f.^2 ./ (1 + f.^2)) + 0.011 * f.^2
I guess, that the author used this formula for the low frequency part.
[EDITED] Check your formula again. It is "4100+f.^2" instead of "4100+f".
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S. David
S. David 2012년 3월 5일
Not much difference when I wrote f.^2 instead of f. Now, I need the program to work. Later I can consider more efficient one.
Jan
Jan 2012년 3월 5일
Ok, not much, but at least enough?
I suggest the standard notation of numbers mainly, because this is faster to write and to read. This is more important than the runtime.

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G A
G A 2012년 3월 5일
This gives the same picture as in the paper:
clear;
f=0:1000;%kHz
alpha=0.11.*f.^2./(1+f.^2)+44.*f.^2./(4100+f.^2)+2.75e-4.*f.^2+0.003;%dB/km
figure(1)
clf
plot(f,alpha,'-b')
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G A
G A 2012년 3월 5일
multiplying f-array by 1e3 is not necessary
Honglei Chen
Honglei Chen 2012년 3월 5일
In your original question, it says f is in kHz so that's why you don't need to multiply 1e3.

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Saed
Saed 2012년 3월 5일
That is great. What did you do? I mean I tried all of these stuff. Anyway, it is fine now. Thanks a lot.
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G A
G A 2012년 3월 5일
1)I have used equation given in the paper. Jan has spotted your mistake. 2)I have removed frequency multiplication by 1e3 you have done.
S. David
S. David 2012년 3월 6일
Thanks

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