linear-sum-assignment
v1.0.7
Published
it performs a linear sum assignment even if the cost matrix is rectangular.
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linear sum assignment
This package is the implementation of Jonker-Volgenant shortest augmenting path algorithm based on the publication On implementing 2D rectangular assignment algorithms
If the number of rows is <= the number of columns, then every row is assigned to one column; otherwise every column is assigned to one row. The assignment minimizes the sum of the assigned elements.
Instalation
$ npm i linear-sum-assignment
Usage
import linearSumAssignment from 'linear-sum-assignment';
import { xCostMatrix } from 'ml-spectra-processing';
/**
* there is one more value in the experimental values, so one of
* them will be not assigned.
**/
const experimental = [1, 2, 3, 4, 5, 7];
const predicted = [3.1, 1.1, 1.9, 3.99, 5.2];
/**
* We will compute a cost matrix where experimental are
* rows and predicted in columns.
* In this case we will look for the closest peak for each experimental peak value.
**/
const diff = xCostMatrix(experimental, predicted, {
fct: (a, b) => Math.abs(a - b),
});
const result = linearSumAssignment(diff, { maximaze: false });
console.log(result);
/**
{
rowAssignments: Float64Array(6) [ 1, 2, 0, 3, 4, -1 ],
columnAssignments: Float64Array(5) [ 2, 0, 1, 3, 4 ],
gain: 0.5100000000000002,
dualVariableForColumns: Float64Array(5) [
0.0900000000000003,
0.0900000000000003,
0.0900000000000003,
0,
0.1900000000000004
],
dualVariableForRows: Float64Array(6) [ 0, 0, 0, 0, 0, 0 ]
}
*/
rowAssignments
contains the index of the column assigned to each element in the rows (experimental).
columnAssignments
contains the index of the row assigned to each element in the columns. So the first element in predicted is assigned to third element in experimental.
dualVariableForColumns
and dualVariableForRows
are the Lagrange multipliers or dual variables.
gain
the sum of the elements in the cost matrix.