## Hot answers tagged matlab

33

Consider this as a beginner's tutorial to Matlab image processing. Read the documentation of the commands used and try and understand what they are doing and why.
1. Read the image
Use imread to read the image into a 3D matrix. For convenience, we convert it to double in the range [0..1] using im2double:
>> img = im2double( imread( 'path/to/battety....

28

In the following I use terminology that I think is more or less in line with standard Matlab practice. However, in some cases I've had to sort-of make up a name because I wasn't aware of an existing one. Please let me know if there are more standard names than those I'm using.
This answer tries to clarify the different types of indexing and how they can be ...

23

These are more guesses, rather than an answer.
One could check the Symbol reference and find that the comma , can be used as
Command or Statement Separator
To enter more than one MATLAB command or statement on the same line,
separate each command or statement with a comma:
for k = 1:10, sum(A(k)), end
In the line
B = {1,2,3,}
...

22

General information
Basically, parfor is recommended in two cases: lots of iterations in your loop (i.e., like 1e10), or if each iteration takes a very long time (e.g., eig(magic(1e4))). In the second case you might want to consider using spmd (slower than parfor in my experience). The reason parfor is slower than a for loop for short ranges or fast ...

20

Explanation
One way that you can do this, would be to use a surface object with a texture-map as the FaceColor.
In MATLAB, you can create a simple rectangular surface. You can set the FaceColor to be texturemap which will cause the value assigned to CData to be mapped across the surface.
Then to get transparency, you can also set the FaceAlpha value to ...

16

Matlab std computes the corrected standard deviation. From help std:
std normalizes Y by (N-1), where N is the sample size. This is the
sqrt of an unbiased estimator of the variance of the population from
which X is drawn, as long as X consists of independent, identically
distributed samples.
So you have
Square of deviation from ...

16

The following simple approach does what you want, and is probably very fast:
in = [1 0 2 0 7 7 7 0 5 0 0 0 9];
t = cumsum(in~=0);
u = nonzeros(in);
out = u(t).';

16

As mentioned above, clearvars includes a syntax for keeping variables in the workspace while clearing the remainder:
a = 1; b = 1; c = 1; d = 1;
keepvars = {'c', 'd'};
clearvars('-except', keepvars{:});
Which functions as expected.
Like clear, it can also accommodate regexp matching:
a1 = 1; a2 = 1; b = 1; c = 1;
keepvars = 'a\d'; % regex pattern
...

15

What you're doing in your code is actually not correlation at all. You are using the template and performing convolution with the input image. If you recall from the Fourier Transform, the multiplication of the spectra of two signals is equivalent to the convolution of the two signals in time/spatial domain.
Basically, what you are doing is that you are ...

15

Explanation of the good performance
Matlab uses copy-on-write whenever possible. If you write expressions like B=A, MATLAB does not copy A, instead both variables A and B are references to the same data structure. Only if one of the two variables will be modified, MATLAB will create a copy.
Now to the special case of reshape. Here it looks like A and B are ...

14

I tried training for 50000 iterations it got to 0.00012 error. It takes about 180 seconds on Tesla K40.
It seems that for this kind of problem, first order gradient descent is not a good fit (pun intended), and you need Levenbergâ€“Marquardt or l-BFGS. I don't think anyone implemented them in TensorFlow yet.
Edit
Use tf.train.AdamOptimizer(0.1) for this ...

14

Because it really looks like this:
(-5 < -3) < -1
-5 < -3 is true, which is also 1.
1 < -1 is false, which is also 0.
Final answer: 0.

14

In theory, there should not be a performance difference between the two methods that you have proposed because the if statement has to be evaluated every time through the loop regardless, but let's take a closer look with some profiling (timeit). I have some tests below on versions R2014a through R2015b.
For each of these tests, I create an array p of ...

13

I'm assuming you determined the eigenvectors from the eig function. What I would recommend to you in the future is to use the eigs function. This not only computes the eigenvalues and eigenvectors for you, but it will compute the k largest eigenvalues with their associated eigenvectors for you. This may save computational overhead where you don't have to ...

13

In the old graphics system (R2014a and earlier) this is not possible using the built-in quiver object. You can easily get all of the plot objects that are used to compose the quiver plot
q = quiver(1:5, 1:5, 1:5, 1:5);
handles = findall(q, 'type', 'line');
But the tails are all represented by one plot object, and the arrow heads are represented by another....

13

This is exactly what the max function does by default:
C = max(A,B)

13

One of the ways is using Conditional Breakpoints. You can add them by right clicking on the number of the line and selecting the "Set conditional Breakpoints..." option.
Example:
As described in the comments of this answer, if you want to set it with the command line you can use
dbstop in filename at linenumber if condition
As an example:
dbstop ...

12

You have to "adapt" the control points to the size of the image you're working with. The way I did this is by computing an affine transformation between the corners of the control points in A and the corners of the source image (preferrably you want to make the points are in the same clockwise order).
One thing I should point out is that the order of points ...

12

My first bsxfun solution.
a = [ 7 8 9 7 8 9];
b = 0:10:(10+10*n);
c = bsxfun(@plus,a,b.');
c =
7 8 9 7 8 9
17 18 19 17 18 19
27 28 29 27 28 29
37 38 39 37 38 39
47 48 49 47 48 49
57 58 59 57 58 59
67 68 69 67 68 69
...

12

What you probably want is to use a package, which is kind of like a python module in that it is a folder that can hold multiple files. You do this by putting a + at the beginning of the folder name, like +mypackage. You can then access the functions and classes in the folder using package.function notation similar to Python without it polluting the global ...

12

btw, here's a slightly cleaned up version of the above that cleans up some of the shape issues and unnecessary bouncing between tf and np. It achieves 3e-08 after 40k steps, or about 1.5e-5 after 4000:
import tensorflow as tf
import numpy as np
def weight_variable(shape):
initial = tf.truncated_normal(shape, stddev=0.1)
return tf.Variable(initial)
...

12

You are looking for MATLAB's setdiff -
setdiff(lst1,lst2)
Sample run -
>> lst1={'a','b','c'};
>> lst2={'c','d','e'};
>> setdiff(lst1,lst2)
ans =
'a' 'b'
Verify with Python run -
In [161]: lst1=['a','b','c']
...: lst2=['c','d','e']
...: lst3=[]
...: for i in lst1:
...: if i not in lst2:
...: ...

12

This is easily done with unique and accumarray:
M = [ 1 1 3
1 1 1
1 2 2
1 2 1
1 2 2
2 1 5
2 1 1
2 2 3
2 2 4
2 2 2 ]; %// data
[~, ~, u] = unique(M(:,1:2), 'rows'); %// unique labels of rows based on columns 1 and 2
M_split = accumarray(u(:), (1:...

12

You got confused by the different ways C++ and MATLAB are printing double values. MATLAB's format long only prints 15 significant digits while C++ prints 17 significant digits. Internally both use the same numbers: IEEE 754 64 bit floating point numbers. To reproduce the C++-behaviour in MATLAB, I defined a anonymous function disp17 which prints numbers with ...

11

OK, so this is what I came up with. The first thing is to use the openvar function and you specify the variable you want wrapped around in single quotations. This will open up the variable in the Variable Editor (the image that is pictured in your snapshot).
Now, you can also use disp to allow clickable links to run MATLAB commands. Using these two ...

11

First, find the unique elements of a and their first indices. Then set all other entries of a to ''.
[~, ii] = unique(a);
ind = setdiff(1:numel(a), ii);
[a{ind}] = deal('');
As pointed out by CST-Link, both the computation of duplicate indices and assignment of empty strings can be sped up (in particular, setdiff is slow):
[~, ii] = unique(a);
ind = 1:...

11

The script is compiled by MATLAB when you call it, the compiled script is loaded into memory, and then run from memory. This is true of classes, functions, scripts, and MEX files. You can use inmem to get a list of all source files that are currently stored in memory.
If you delete the source file from within the script, it will still complete (because it ...

10

This seems to be a numerical precision issue.
The eigenvectors of a real symmetric matrix are orthogonal. But your input matrix A is not exactly symmetric. The differences are on the order of eps, as expected from numerical errors.
>> A-A.'
ans =
1.0e-16 *
0 -0.2082 -0.2776 0 0.1388
0.2082 0 0 -0.1388 ...

10

The reason for the specific behaviour mentioned in the question is the call to FILEprintf fprintf with a storage variable:
nbytes = fprintf(___) returns the number of bytes that fprintf writes, using any of the input arguments in the preceding syntaxes.
So what happens is that disp(fprintf(...)) first prints the text as per fprintf without a storage ...

10

I think what you need is
dists=sum(bsxfun(@times,bsxfun(@minus,...
permute(pPoint,[1 3 2]),permute(lStart,[3 1 2])),...
permute(norms,[1 3 2])),3)...
./(sum(bsxfun(@times,...
permute(lEnd-lStart,[3 1 2]),permute(norms,[1 3 2])),3))
This assumes that pPoint and norms are size [...

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