I have a large 3d matrix of air temperatures for the entire earth, with the data formatted as lon x lat x time at hourly resolution. I want to find a robust way of calculating the daily minimum temperature for each lat/lon location. An example:

```
lon = -180:10:180;
lat = -90:10:90;
time = datenum('2009-01-01 00:00','yyyy-mm-dd HH:MM'):1/24:datenum('2009-01-05 23:00','yyyy-mm-dd HH:MM');
data = randn(length(lon),length(lat),length(time));
```

This is my data. It includes the air temperatures for different locations, provided at hourly resolution. The code below is my attempt at calculating the minimum value for each day.

```
% find number of unique days
datev = datevec(time);
[ia,ib,ic] = unique(datev(:,1:3),'rows');
uic = unique(ic);
% first re-structure data to 2d matrix
rdata = nan(length(time),length(lon)*length(lat));
for i = 1:length(ic);
dd = data(:,:,i);
rdata(i,:) = dd(:);
end
% then calculate the minimum value for each day
min_data = nan(length(uic),length(lon)*length(lat));
for i = 1:length(uic);
idx = find(ic == uic(i));
min_data(i,:) = min(rdata(idx,:),[],1);
end
min_data = reshape(min_data,length(lon),length(lat),length(uic));
```

I think this answer is correct, at least is seems to be when I look at the answers.

The question I have is (1) Is my method correct, and (2) is there a better way of doing this, rather than having to restructure the data and loop through the different uniuque days. I considered using accumarray but coulnd't work out how to work it with a 3d matrix.

Any adive is appreciated.