This library is a compilation of the tools developed in the mljs organization.
It is mainly maintained for use in the browser. If you are working with Node.js, you might prefer to add
to your dependencies only the libraries that you need, as they are usually published to npm more often.
We prefix all our npm package names with ml-
(eg. ml-matrix) so they are easy to find.
To include the ml.js library in a web page:
<script src="https://www.lactame.com/lib/ml/4.0.0/ml.min.js"></script>
It will be available as the global ML
variable. The package is in UMD format.
- Principal component analysis (PCA):
ML.PCA
- Hierarchical clustering:
ML.HClust
- K-means clustering:
ML.KMeans
- Naive Bayes:
ML.NaiveBayes
- K-Nearest Neighbor (KNN):
ML.KNN
- Partial least squares (PLS):
ML.PLS
- K-OPLS:
ML.KOPLS
- Cross-validation:
ML.CrossValidation
- Confusion matrix:
ML.ConfusionMatrix
- Decision tree classifier:
ML.DecisionTreeClassifier
- Random forest classifier:
ML.RandomForestClassifier
- Simple linear regression:
ML.SimpleLinearRegression
- Polynomial regression:
ML.PolynomialRegression
- Multivariate linear regression:
ML.MultivariateLinearRegression
- Power regression:
ML.PowerRegression
- Exponential regression:
ML.ExponentialRegression
- Theil-Sen regression:
ML.TheilSenRegression
- Robust polynomial regression:
ML.RobustPolynomialRegression
- Decision tree regression:
ML.DecisionTreeRegression
- Random forest regression:
ML.RandomForestRegression
- Levenberg-Marquardt:
ML.levenbergMarquardt
- Fast Combinatorial Non-negative Least Squares:
ML.FCNNLS
- Matrix:
ML.Matrix
(Matrix class) - Singular value decomposition (SVD):
ML.SVD
- Eigenvalue decomposition (EVD):
ML.EVD
- Cholesky decomposition:
ML.CholeskyDecomposition
- Lu decomposition:
ML.LuDecomposition
- Qr decomposition:
ML.QrDecomposition
- Sparse matrix:
ML.SparseMatrix
- Kernels:
ML.Kernel
- Distance functions:
ML.Distance
- Similarity functions:
ML.Similarity
- Distance matrix:
ML.distanceMatrix
- XORShift-add RNG:
ML.XSadd
- non-negative Generalized Morphological Component Analysis
ML.nGMCA
ML.Array.min
ML.Array.max
ML.Array.median
ML.Array.mean
ML.Array.mode
ML.Array.normed
ML.Array.rescale
ML.Array.sequentialFill
ML.Array.standardDeviation
ML.Array.variance
Functions dealing with an object containing 2 properties x and y, both arrays.
Example:
let result = ML.ArrayXY.sortX({ x: [2, 3, 1], y: [4, 6, 2] });
// result = {x: [1,2,3], y: [2,4,6]}
-
ML.ArrayXY.weightedMerge: Merge abscissa values on similar ordinates and weight the group of abscissa
-
ML.ArrayXY.maxMerge: Merge abscissa values on similar ordinates and keeps the abscissa with bigger ordinate value
-
ML.ArrayXY.closestX: Get the closest point for a specific abscissa value
-
ML.ArrayXY.centroidsMerge: Merge abscissa values if the ordinate value is in a list of centroids
-
ML.ArrayXY.sortX: Sort a set of point based on the abscissas values
-
ML.ArrayXY.maxY: Sort a set of point based on the abscissas values
-
ML.ArrayXY.uniqueX: Ensure that x values are unique
- Performance (ROC curve):
ML.Performance
- Principal component analysis (PCA):
ML.PCA
- Savitzky-Golay filter:
ML.savitzkyGolay
- Global Spectral Deconvolution (GSD):
ML.GSD
- Bit array operations:
ML.BitArray
- Hash table:
ML.HashTable
- Pad array:
ML.padArray
- Binary search:
ML.binarySearch
- Number comparison functions for sorting:
ML.numSort
- Random number generation:
ML.Random