# Tag Info

13

I'll first give you the code and then explain it a bit: // direction vectors const int dx[] = {+1, 0, -1, 0}; const int dy[] = {0, +1, 0, -1}; // matrix dimensions int row_count; int col_count; // the input matrix int m[MAX][MAX]; // the labels, 0 means unlabeled int label[MAX][MAX]; void dfs(int x, int y, int current_label) { if (x < 0 || x == ...

6

In the book Programming Collective Intelligence http://oreilly.com/catalog/9780596529321 Chapter 2 "Making Recommendations" does a really good job of outlining methods of recommending items to people based on similarities between users. You could use the similarity algorithms to find the 'neighbours' you are looking for. The chapter is available on google ...

6

You just want to determine whether two characters are next to each other on the keyboard? Why not use a map from a character to a set of adjacent characters? When using efficient data structures you will get O(1) time - use array for a map (continuous key space - ASCII codes of keys) and BitSet for a set of adjacent keys. Also very compact. Here is a sample ...

5

If the the image is img and the current pixel indices are i and j, then the four neighbors will be: img(i-1,j); img(i+1,j); img(i,j-1); img(i,j+1);

5

As suggested by EitanT, there is at least bwmorph that already does what you want. If you do no have access to the image processing toolbox, or just insist on doing it yourself: You can replace the triple-loop in isfront with the vectorized front = zeros(n,m); zero_crossers = ... phi(1:end-2,2:end-1).*phi(3:end,2:end-1) < 0 | ... ...

5

% Firstly, Create the images FirstImage = [ 108 113 121 129 128 124 117 101 114 76 60 110 98 74 121 109 114 62 52 105 85 59 121 116 110 59 54 104 0 0 0 115 104 55 54 104 0 0 0 113 96 48 51 105 0 0 0 113 94 60 69 115 0 0 0 110 99 108 122 130 135 0 0 109 ]; SecondImage = [ 0 0 0 0 0 0 138 137 137 137 0 ...

4

Before we begin, you should be careful to not confused the label/name and the index/number of a given vertex. When you use both numbers for labels and indicies things quickly become confusing. To avoid all confusion, I've here used letters edgelist <- read.table(text = " A B B C C D D E C F F G") library(igraph) graph <- graph.data.frame(edgelist) ...

4

First, to clarity, you are working with a defuzzification algorithm described in the paper "Defuzzification of spatial fuzzy sets by feature distance minimization". The term Ck is initially built for k = 0 as: Core(f) = {x is a member of a set X | m(x) >= m(y) for all y in X} where f is some discrete grayscale 2D image, m(x) is defined as the ...

4

You might want to look at space partitioning trees like the octree or k-d tree structures. These structures usually can be built very efficiently (O(n) or O(n log n), IIRC), and then provide extremely fast lookups for finding either nearest neighbors or points within a given bounding box. Using one of these structures should give you a huge performance ...

4

The most convenient solution is to use REGIONPROPS. In your example: stats = regionprops(image, 'area', 'centroid') For every feature, there is an entry in the structure stats with the area (i.e. # of voxels) and the centroid.

4

Yeah the problem was that you weren't including the order field in your fields array. \$neighbours = \$this->Item->find('neighbors', array( 'order' => 'order DESC', 'fields' => array('id', 'name', 'order') )); Unless you have related models with conflicting field names you don't need to include the Item. model prefix (though I usually do ...

3

This is really just a correction to PHP-Steven's answer but I don't have enough rep to make a comment. SELECT `lap_time`, `uid` FROM `table` t1 WHERE `lap_time` =< 120 AND NOT EXISTS (SELECT 1 FROM `table` WHERE `uid` = t1.`uid` AND `lap_time` > t1.`lap_time` AND `lap_time` < 120) ORDER BY `lap_time` DESC LIMIT 5 and SELECT ...

3

You can partition the scene in an octree and utilize scene coherence. Your moving object that you are testing is going to be in a specific node of the tree for a specific amount of frames depending on its speed. This means you can assume it will be in the node and therefore quickly cut out a lot of objects that are not in the node. Of course the tricky bit ...

3

I really like the idea. For raw speed, you would use a massive switch statement. The code would be large, but there would be nothing faster: public static boolean isNeighbour(char key1, char key2) { switch (key1) { case 'a': return key2 == 'w' || key2 == 'e' || key2 == 'd' || key2 == 'x' || key2 == 'z'; case 'd': return key2 == ...

3

df <- data.frame(a = c(1:4, 21:24), b = 1) # check whether differences are greater than 10 diffs <- diff(df\$a) > 10 # create `b` df\$b <- as.integer(!(c(FALSE, diffs) | c(diffs, FALSE))) The result: a b 1 1 1 2 2 1 3 3 1 4 4 0 5 21 0 6 22 1 7 23 1 8 24 1

3

Even for large edge list, you can use Matlab to create an adjacency matrix that fits into memory using sparse matrix: el = [2 1; 3 1; ... ]; %// edge list, I put only a tiny sample here... n = max( el(:) ); %// number of nodes in the graph A = sparse( el(:,1), el(:,2), 1, n, n ); % //sparse adjacency matrix The neighbor degree of each node is the number ...

3

Here's another way, based on your proposed solution but using sequence expressions: let getNeighbours (x,y) (matrix: 'a [,]) = let lower n = max 0 (n - 1) let upper n = min (matrix.GetUpperBound(0)) (n + 1) seq { for i = lower x to upper x do for j = lower y to upper y do if (i, j) <> (x, y) then ...

3

I found[1] three errors in your example and suggest the following corrections: 1) change the calculation of end positions - which caused your exception - into this int endPositionX = (i + 1 >= grid.length) ? i : i + 1; int endPositionY = (j + 1 >= grid.length) ? j : j + 1; 2) you need an arraylist for each cell, so change the initial creation ...

3

You can do it in one line with blockproc: B = blockproc(A,[1 1],@(x)sum(x.data(:)),'BorderSize',[1 1],'TrimBorder',0)-A>=5; For example, A = 1 0 1 1 0 0 0 0 1 1 1 1 1 1 1 0 1 0 1 1 gives the result B = 0 0 0 0 0 0 1 1 1 0 ...

2

Not sure if I've understood your question but what about this sort of approach: if you matrix is 1D: M = rand(10,1); N = M(k-1:k+1); %//immediate neighbours of k However this could error if k is at the boundary. This is easy to fix using max and min: N = M(max(k-1,1):min(k+1,size(M,1)) Now lets add a dimenion: M = rand(10,10); N = ...

2

Have you considered using convn? msk = [0 1 0; 1 0 1; 0 1 0]; msk4d = permute( msk, [3 1 2 4] ); % make it 1-3-3-1 mask neighbors_idx = find( convn( A, msk4d, 'same' ) > 0 ); You might find conndef useful for defining the basic msk in a general way.

2

Another solution: use either: BW = ~(FirstImage>0); or: BW = SecondImage>0; then: [B,L] = bwboundaries(BW,'noholes'); B=cell2mat(B); m=zeros(size(BW)); m(sub2ind(size(BW),B(:,1),B(:,2)))=1

2

I think it is because the documentation for nlfilter says that the user function must return a scalar and you are trying to return a matrix. B = nlfilter(A, [m n], fun) applies the function fun to each m-by-n sliding block of the grayscale image A. fun is a function that accepts an m-by-n matrix as input and returns a scalar (!!!) result.

2

You can define coordlist as a 2-D array: coordlist = np.array(coordlist) and do the comparisons at once: if np.any(coordlist[:,4]==1): in_cloud[point][4] = 0 else: in_cloud[point][4] = 1 but you should also review the in_cloud list, it seems you can improve the overall speed of your code by changing everything from list to np.ndarray and ...

2

As i + j - (kernel.length / 2) may be too short for an answer: public class Convolution { public static void main(String[] args) { int image[] = { 0,1,2,3,4,5,6,7,8 }; int kernel[] = { 0,1,2,3,4,5,6,7,8 }; int output[] = convolve(image, kernel); for (int i=0; i<image.length; i++) { ...

2

Here's a much simpler version of your code: nlist = [] if x < n: nlist.append((x+1,y)) if y < n: nlist.append((x,y+1)) if x > 0: nlist.append((x-1,y)) if y > 0: nlist.append((x,y-1)) That should be a lot easier to manage. To unpack a tuple (xin, yin) into x, y for your code, you can simply do this: x, y = (xin, yin) or if ...

2

2

I think that what you are looking for is called bwlabeln. It allows you to find blobs in 3D space, just like bwlabel does in 2D. Afterwards, you can use regionprops to find out the properties of the data. Taken directly from help: bwlabeln Label connected components in binary image. L = bwlabeln(BW) returns a label matrix, L, containing labels for ...

2

You can use conv2 to compute this value, as follows: %First create some example matrix % (this is a 5 x 5 matrix with 30% 1's, 70% 0's x = full(ceil(sprand(5,5,0.3))) %Create your convolution kernal % This will add up all the values in the 8 elements surrounding the % central element k = [1 1 1; 1 0 1; 1 1 1]; %Now do the copnvulution (using the ...

2

I think you want either the mode or the histc function. M=mode(X) for vector X computes M as the sample mode, or most frequently occurring value in X. Example with your data: x = [56 56 64 64 64 70 87 65]; mode(x) ans = 64 But this will only get you the most frequently occurring value. If you want the count of each unique item in the ...

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