30 lines
1.4 KiB
Matlab
30 lines
1.4 KiB
Matlab
function obj = partition(obj)
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arguments (Input)
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obj (1, 1) {mustBeA(obj, 'miSim')};
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end
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arguments (Output)
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obj (1, 1) {mustBeA(obj, 'miSim')};
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end
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% Assess sensing performance of each agent at each sample point
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% in the domain
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agentPerformances = cellfun(@(x) reshape(x.sensorModel.sensorPerformance(x.pos, x.pan, x.tilt, [obj.objective.X(:), obj.objective.Y(:), zeros(size(obj.objective.X(:)))]), size(obj.objective.X)), obj.agents, 'UniformOutput', false);
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agentPerformances{end + 1} = obj.sensorPerformanceMinimum * ones(size(agentPerformances{end})); % add additional layer to represent the threshold that has to be cleared for assignment to any partiton
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agentPerformances = cat(3, agentPerformances{:});
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% Get highest performance value at each point
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[~, idx] = max(agentPerformances, [], 3);
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% Current total performance
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obj.performance = sum(max(agentPerformances(:, :, 1:(end - 1)), [], 3), 'all');
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% Collect agent indices in the same way
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agentInds = cellfun(@(x) x.index * ones(size(obj.objective.X)), obj.agents, 'UniformOutput', false);
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agentInds{end + 1} = zeros(size(agentInds{end})); % index for no assignment
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agentInds = cat(3, agentInds{:});
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% Get highest performing agent's index
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[m,n,~] = size(agentInds);
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[i,j] = ndgrid(1:m, 1:n);
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obj.partitioning = agentInds(sub2ind(size(agentInds), i, j, idx));
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end |