The reducer output names determine the names of the output bands: reducers with multiple inputs will use the output names directly, while reducers with a single input will prefix the output name with the input band name (e.g., '10_mean', '20_mean').
Reducers with weighted inputs can have the input weight based on the input mask, the kernel value, or the smaller of those two.
| Usage | Returns |
|---|---|
Image.reduceNeighborhood(reducer, kernel, inputWeight, skipMasked, optimization) | Image |
| Argument | Type | Details |
|---|---|---|
this: image | Image | The input image. |
reducer | Reducer | The reducer to apply to pixels within the neighborhood. |
kernel | Kernel | The kernel defining the neighborhood. |
inputWeight | String, default: "kernel" | One of 'mask', 'kernel', or 'min'. |
skipMasked | Boolean, default: true | Mask output pixels if the corresponding input pixel is masked. |
optimization | String, default: null | Optimization strategy. Options are 'boxcar' and 'window'. The 'boxcar' method is a fast method for computing count, sum or mean. It requires a homogeneous kernel, a single-input reducer and either MASK, KERNEL or no weighting. The 'window' method uses a running window, and has the same requirements as 'boxcar', but can use any single input reducer. Both methods require considerable additional memory. |