# kde2d > Two-dimensional kernel density estimation.

## Usage ```javascript var kde2d = require( '@stdlib/stats/kde2d' ); ``` #### kde2d( x, y\[, opts] ) By default, the function computes two-dimensional normal kernel density estimation for data provided in [arrays][mdn-array] or [typed-arrays][mdn-typed-array] `x` and `y`. When these arguments are supplied, the arrays are coerced into a Matrix-like object. ```javascript var x = [ 0.6333, 0.8643, 1.0952, 1.3262, 1.5571, 1.7881, 2.019, 2.25, 2.481, 2.7119 ]; var y = [ -0.0468, 0.8012, 1.6492, 2.4973, 3.3454, 4.1934, 5.0415, 5.8896, 6.7376, 7.5857 ]; var out = kde2d( x, y ); /* e.g., returns { 'x': [ ~0.633, ~0.72, ... ], 'y': [ ~-0.047, ~0.271 ... ], 'z': ndarray{ [ ~0.0455, ... ]} } */ ``` #### kde2d( arr\[, opts] ) The function has the ability to handle [ndarrays][nd-array]. Specifically the `ndarray` must be constructed so that there are two columns present, the first column containing the `x` values and the second column containing the `y` values. Note that for the output the `x` and `y` properties refer to the equally spaced gridpoints of `X` and `Y` used to calculate `z`. ```javascript var ndarray = require( '@stdlib/ndarray/ctor' ); var x = [ 0.6333, 0.8643, 1.0952, 1.3262, 1.5571, 1.7881, 2.019, 2.25, 2.481, 2.7119 ]; var y = [ -0.0468, 0.8012, 1.6492, 2.4973, 3.3454, 4.1934, 5.0415, 5.8896, 6.7376, 7.5857 ]; var buffer = x.concat( y ); var n = x.length; var shape = [ n, 2 ]; var strides = [ 1, n ]; var offset = 0; var order = 'column-major'; var arr = ndarray( 'generic', buffer, shape, strides, offset, order ); var out = kde2d( arr ); /* e.g., returns { 'x': [ ~0.633, ~0.72, ... ], 'y': [ ~-0.047,~ 0.271, ... ], 'z': ndarray{ [0.04547178438418015, ... ]} } */ ``` The function accepts the following `options`: - **h**: `NumberArray` of length 2 indicating the X and Y bandwidth values, respectively. - **n**: A positive `integer` indicating the number of partitions to create in the grid. Default: `25`. - **xMin**: A `number` indicating the lower bound of X. Must be strictly less than `xMax`. Will default to the minimum value of `X`. - **xMax**: A `number` indicating the lower bound of X. Must be strictly greater than `xMin`. Will default to the maximum value of `X`. - **yMin**: A `number` indicating the lower bound of X. Must be strictly less than `yMax`. Will default to the minimum value of `Y`. - **yMax**: A `number` indicating the lower bound of X. Must be strictly greater than `yMin`. Will default to the maximum value of `Y`. - **kernel**: A `string` or `function` indicating the kernel to be used when calculating the estimation. If a `string` is supplied then it will be matched to a pre-defined kernel function. Otherwise you may supply a function to support custom kernels. Will default to the `gaussian` kernel. By default, the bandwidth argument is set by a builtin function. To choose different bandwidth values, set the `h` option. Note that if you use a custom bandwidth for one axis, you must also use a custom bandwidth for the other axis. ```javascript var x = [ 0.6333, 0.8643, 1.0952, 1.3262, 1.5571, 1.7881, 2.019, 2.25, 2.481, 2.7119 ]; var y = [ -0.0468, 0.8012, 1.6492, 2.4973, 3.3454, 4.1934, 5.0415, 5.8896, 6.7376, 7.5857 ]; var out = kde2d( x, y, { 'h': [ 0.05, 0.1 ] }); /* e.g., returns { 'x': [ 0.148, 0.3772, ... ], 'y': [ -1.1511, -0.253, ... ], 'z': ndarray{ [ 6.344e-154, 1.93e-171, ... ]} } */ ``` By default, we use `25` partitions. To change the number of partitions, set the `n` option. ```javascript var x = [ 0.6333, 0.8643, 1.0952, 1.3262, 1.5571, 1.7881, 2.019, 2.25, 2.481, 2.7119 ]; var y = [ -0.0468, 0.8012, 1.6492, 2.4973, 3.3454, 4.1934, 5.0415, 5.8896, 6.7376, 7.5857 ]; var out = kde2d( x, y, { 'n': 15 }); /* e.g., returns { 'x': [ 0.0623, 0.452, ... ], 'y': [ 0.1378, 1.6266, ... ], 'z': ndarray{ [1.211e-7, 5.76e-7, ... ]} } */ ``` As a default choice, the `kde2d` function sets the `xMin`, `xMax`, `yMin` and `yMax` values to be the minimum and maximum of the `X` and `Y` arrays or columns of the supplied arguments. We may change the options as follows: ```javascript var x = [ 0.6333, 0.8643, 1.0952, 1.3262, 1.5571, 1.7881, 2.019, 2.25, 2.481, 2.7119 ]; var y = [ -0.0468, 0.8012, 1.6492, 2.4973, 3.3454, 4.1934, 5.0415, 5.8896, 6.7376, 7.5857 ]; var out = kde2d( x, y, { 'xMin': 0.0, 'xMax': 2.5, 'yMin': 0.0, 'yMax': 6.0 }); /* e.g., returns { 'x': [ 0, 0.1041, ... ], 'y': [ 0, 0.25, ... ], 'z': ndarray{ [ 1.762e-8, 2.94e-8, ... ]} } */ ```

## Examples ```javascript var normal = require( '@stdlib/random/base/normal' ); var kde2d = require( '@stdlib/stats/kde2d' ); var randX; var randY; var out; var i; var x; var y; var n; n = 100; x = new Array( n ); y = new Array( n ); randX = normal.factory( 3.0, 1.2 ); randY = normal.factory( 10.0, 4.5 ); for ( i = 0; i < n; i++ ) { x[ i ] = randX(); y[ i ] = randY(); } out = kde2d( x, y ); /* e.g., returns { 'x': [0.022, 0.2614, ...], 'y': [-4.533, 3.602, ...], 'z': ndarray { Float64Array [9.8266e-11, 6.45e-9, ...]} } */ ```

[mdn-array]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array [mdn-typed-array]: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Typed_arrays [nd-array]: https://github.com/stdlib-js/stdlib/blob/develop/lib/node_modules/@stdlib/ndarray/ctor/README.md