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kNNSortingOptim.m
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kNNSortingOptim.m
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function sortedDates = kNNSortingOptim(sortedDates,addVars,Et_W,Tavg_ShortW,Tmin_ShortW,Tmax_ShortW,Pre_ShortW,Tavg_LongW,Tmin_LongW,Tmax_LongW,Pre_LongW,nbImages,saveOptimPrep,inputDir)
%
%
%
% REDO DOCUMENTATION
%
%
%
% 1 Q date, 2 L dates, 3 target distance, 4 addVars distances, 5 climate distances, 6 std
if saveOptimPrep == true
distances = load(fullfile(inputDir,'KNNDistances.mat'));
distances = distances.sortedDates;
else
distances = sortedDates;
end
% Assign different weights
% weightsNames = {bayesWeights.Name};
% idxTarget = contains(weightsNames,strcat(var,'_W'));
% weightsTarget = bayesWeights(:,idxTarget);
% idxShort = contains(weightsNames,'Short');
% weightsShort = bayesWeights(:,idxShort);
% idxLong = contains(weightsNames,'Long');
% weightsLong = bayesWeights(:,idxLong);
weightsTarget = Et_W;
weightsShort = [Tavg_ShortW,Tmin_ShortW,Tmax_ShortW,Pre_ShortW];
weightsLong = [Tavg_LongW,Tmin_LongW,Tmax_LongW,Pre_LongW];
if ~isempty(addVars)
error('addVars weights handling not implemented yet')
%idxAddVars = contains(weightsNames,addVars);
%weightsAddVars = bayesWeights(:,idxAddVars);
else
weightsAddVars = [];
end
totQDates = size(distances,1);
totLDates = size(distances{1,2},1);
targetDistance = cell(totQDates, 1);
addVarsDistance = cell(totQDates, 2);
climateDistance = cell(totQDates, 2);
sortedDates = cell(totQDates, 1);
sortedData = cell(totQDates, 1);
sortedDist = cell(totQDates, 1);
for qd = 1:totQDates
currentQDate = distances{qd,1};
for ld = 1:totLDates
currentLDate = distances{1,2}{ld,1};
% Target variable comparison
targetDistance{ld,1} = distances{qd,3}{ld,1};
targetDistance{ld,1} = targetDistance{ld,1} .* weightsTarget;
% Additional variable comparison
if ~isempty(addVars)
if numel(addVars) == 1
addVarsDistance{ld,1} = distances{qd,4}{ld,1};
addVarsDistance{ld,1} = addVarsDistance{ld,1} .* weightsAddVars;
addVarsDistance{ld,2} = addVarsDistance{ld,2} .* weightsAddVars;
else
addVarsDistance{:,ld} = distances{:,ld};
addVarsDistance{:,ld} = addVarsDistance{:,ld} .* weightsAddVars;
addVarsDistance{ld,2} = addVarsDistance{ld,2} .* weightsAddVars;
end
else
addVarsDistance{ld,1} = 0;
addVarsDistance{ld,2} = 0;
end
% Climate distance
climateDistance{ld,1} = currentLDate;
climateDistance{ld,2} = distances{qd,5}{ld,1};
climateDistance{ld,2}(1,:) = climateDistance{ld,2}(1,:) .* weightsShort;
climateDistance{ld,2}(2,:) = climateDistance{ld,2}(2,:) .* weightsLong;
climateDistance{ld,2} = sum(climateDistance{ld,2},1,'omitnan');
climateDistance{ld,2} = sum(climateDistance{ld,2},2,'omitnan')+targetDistance{ld,1}+addVarsDistance{ld,1};
end
% Learning dates distance: 1 date, 2 distance, 3 std
distance = climateDistance(~cellfun('isempty',climateDistance(:,1)),:);
distancesSort = sortrows(distance,2); % Sort rows in ascending order according to column 2
distancesBest = distancesSort(1:nbImages,1);
distSorted = distancesSort(1:nbImages,2);
sortedDates{qd} = currentQDate;
sortedData{qd} = cell2mat(distancesBest);
sortedDist{qd} = cell2mat(distSorted);
end
sortedDatesAll = [sortedDates sortedData sortedDist];
sortedDates = sortedDatesAll;
end