I have data from AMSR on ice concentration. The latitude and longitude data are azimuthal though since they were converted to lat and lon from km data. I need to take that high resolution, unevenly spaced grid and turn it into a evenly spaced grid that increases lat and lon by 0.25 increments. Then I need to average the data that fall in each of those lat and lon increments.
%%%%%%%% % A .mat file was made from the following block of commented script so it % does not have to be run each time. % % % Read in Latitude and Longitude files % lonIce = double(hdfread('LongitudeLatitudeGrid-s6250-Antarctic.hdf', 'Longitudes')); % latIce = double(hdfread('LongitudeLatitudeGrid-s6250-Antarctic.hdf', 'Latitudes')); % % % Transpose everything % latIce = latIce'; % lonIce = lonIce'; % % % Add path % % datapath = '/home/jg3223/Documents/AMSR_SeaIceData_Antarctic'; % % % Create new lon and lat grid that increases by 0.25 degree increments. % for i = 1:1437 % for j = 1:159 % X(i,j) = 0.75+0.25*i; % longitude from 1 to 360 % Y(i,j) = -89.75+0.25*j; % latitude from -89.5 to -50 % end % end % Read in sea ice concentrations % AMSR-E data format: 'asi-s6250-20110101-v5.hdf'; % AMSR2 data format: 'asi-AMSR2-s6250-20120724-v5.hdf'; % SSMI data format: 'asi-SSMIS17-s6250-20111001-v5.hdf'; fname = 'asi-s6250-20100101-v5.hdf'; data = double(hdfread(fname, 'ASI Ice Concentration')); % % Define 3d matrix % [N,M] = size(X); % Q = zeros(N, M, 1251); % matrix we'll populate; each file contains % % one map [nLONS x nLATS] at time step t %%%%%% % Load in the .mat file containing the variables needed load 'AMSR_DailySeaIce_Readin_Variables' % Load list file flist = fopen('fnames.dat'); % open the list of file names tic; t = 0; while ~feof(flist), % while we haven't reached the end of the file % For each file fname = fgetl(flist); % Reads next line of list, stores name of data file as string in fname fid = fopen(fname); % Open that file disp(fname); t = t+1; % time index % Open each file data = double(hdfread(fname, 'ASI Ice Concentration')); % Transpose data array data = data'; % Interpolate Z = griddata(lonIce, latIce, data, X, Y); % Turn NaN to 0 % Z(isnan(Z)) = 0 ; % Store in new array data_All(:,:,t) = Z; % Clear current data clear data; end