# MATLAB - Counting the # of rows that are only numbered with multiples of 5

I am currently doing a project that involves MATLAB and I just can't seem to figure out a way to solve this problem. I have a data set that looks like this:

``````   262    23    34
262    23    34
262    23    35
262    23    38
262    23    38
262    23    39
262    23    40
262    23    41
262    23    42
262    23    43
262    23    45
262    23    46
262    23    47
262    23    48
262    23    50
262    23    50
262    23    51
262    23    52
262    23    55
262    23    57
262    23    58
263     0     0
263     0     2
263     0     4
263     0     7
263     0    10
263     0    15
263     0    25
263     0    29
263     0    32
263     0    39
263     1     1
272    23    28
272    23    30
272    23    56
273     0     1
273     0     2
273     0     3
273     0     3
273     0     4
273     0     4
273     0     5
273     0     5
273     0     6
273     0     8
273     0    10
273     0    32
273     0    37
``````

From the left to the right represents Julian day, hour in UTC, and minute when a tip of a rain gauge was made.

I need to calculate 5 minute totals and its accumulation of each day, for example, on the day 262 the rain tips total from 13-15 minute (since the information before 23:34 is not provided), 13-20 accumulated, 13-25, 13-30,... etc. Like I said each time recorded is when one tip was made and the precipitation amount of one tip is 0.01 inch. So all I need to know is how many tips were made within one day in 5 minute interval.

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Oooops, they are three different columns of day, hour, and minute –  weathergirl Jul 4 '13 at 21:02
I'm thinking `accumarray` can help here, but I'm still not sure what is the result you expect? –  Amro Jul 4 '13 at 21:09
I am expecting to see, for example, on day 262 from the very beginning of the dataset provided the number of tips made during 23:34-35 (because the data chart doesn't give us any info about the tips until 23:34), # of tips during 23:34-40, 23:34-45,..., on day 263, 0:0-5, 0:0-10,...,etc. Does it make sense? :( –  weathergirl Jul 4 '13 at 21:15
so you want to divide the day into 5 minutes intervals, and count how many "reads" you have in each bin, then take the cumulative sum. correct? –  Amro Jul 4 '13 at 21:22
Yes sir!!! Sorry I'm bad at explaining –  weathergirl Jul 4 '13 at 21:25

Perhaps something like this:

``````%# all possible days represented in the data
%# (you could also do this for all 1:365 days)
days = unique(X(:,1));

%# cumulative counts in each 5 minutes intervals
%# (each column represents one of the days)
counts = zeros(24*60/5,numel(days));

for i=1:numel(days)
%# indices of the instances in that day
idx = (X(:,1) == days(i));

%# convert hour/minute into minute units
m = X(idx,2).*60 + X(idx,3);

%# count occurences in each 5 minute bin
c = accumarray(fix(m/5)+1, 1, [24*60/5 1]);

%# take the cumulative sum and store it
counts(:,i) = cumsum(c);
end
``````

so for day=262 we have:

``````>> counts(end-6:end,1)
ans =
0    %# [00:00, 23:30)
2    %# [00:00, 23:35)
6    %# [00:00, 23:40)
10    %# [00:00, 23:45)
14    %# [00:00, 23:50)
18    %# [00:00, 23:55)
21    %# [00:00, 00:00 of next day)
``````
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you can convert day-hour-min into minutes. Suppose your data is stored in an `n`-by-3 matrix called `data` (how original). Then

`````` >> minutes = data * [24*60; 60; 1]; % counting minutes from the begining
``````

Now you have to define the bins' edges (the intervals for summation):

`````` >> edges = min(minutes) : 5 : max(minutes); % you might want to round the lower and upper limits to align with a 5 minute interval.
``````

Use `histc` to count how many drops in each bin

`````` >> drops = histc(minutes, edges);
``````
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