Description
Different metrics of distance are convenient for different types of analysis. Flink ML provides built-in implementations for many standard distance metrics. You can create custom distance metrics by implementing the DistanceMetric trait.
Built-in Implementations
Currently, FlinkML supports the following metrics:
| Metric | Description |
|---|---|
| Euclidean Distance | $$d(\x, \y) = \sqrt{\sum_{i=1}^n \left(x_i - y_i \right)^2}$$ |
| Squared Euclidean Distance | $$d(\x, \y) = \sum_{i=1}^n \left(x_i - y_i \right)^2$$ |
| Cosine Similarity | $$d(\x, \y) = 1 - \frac{\x^T \y}{\Vert \x \Vert \Vert \y \Vert}$$ |
| Chebyshev Distance | $$d(\x, \y) = \max_{i}\left(\left \vert x_i - y_i \right\vert \right)$$ |
| Manhattan Distance | $$d(\x, \y) = \sum_{i=1}^n \left\vert x_i - y_i \right\vert$$ |
| Minkowski Distance | $$d(\x, \y) = \left( \sum_{i=1}^{n} \left( x_i - y_i \right)^p \right)^{\rfrac{1}{p}}$$ |
| Tanimoto Distance | $$d(\x, \y) = 1 - \frac{\x^T\y}{\Vert \x \Vert^2 + \Vert \y \Vert^2 - \x^T\y}$$ with $\x$ and $\y$ being bit-vectors |
Custom Implementation
You can create your own distance metric by implementing the DistanceMetric trait.
class MyDistance extends DistanceMetric {override def distance(a: Vector, b: Vector) = ... // your implementation for distance metric }object MyDistance {def apply() = new MyDistance()}val myMetric = MyDistance()
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