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ee.Algorithms.Image.Segmentation.SNIC
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Agrupamento de superpixels com base no SNIC (agrupamento simples não iterativo). Gera uma faixa de IDs de cluster e as médias por cluster para cada uma das faixas de entrada. Se a imagem de "seeds" não for fornecida como entrada, a saída vai incluir uma banda "seeds" com os locais de sementes gerados. Consulte: Achanta, Radhakrishna e Susstrunk, Sabine, "Superpixels and Polygons using Simple Non-Iterative Clustering", CVPR, 2017.
| Uso | Retorna |
|---|
ee.Algorithms.Image.Segmentation.SNIC(image, size, compactness, connectivity, neighborhoodSize, seeds) | Imagem |
| Argumento | Tipo | Detalhes |
|---|
image | Imagem | A imagem de entrada para clustering. |
size | Número inteiro, padrão: 5 | O espaçamento do local de origem do superpixel, em pixels. Se a imagem "seeds" for fornecida, nenhuma grade será produzida. |
compactness | Ponto flutuante, padrão: 1 | Fator de compacidade. Valores maiores fazem com que os clusters fiquem mais compactos (quadrados). Definir como 0 desativa a ponderação da distância espacial. |
connectivity | Número inteiro, padrão: 8 | Conectividade. 4 ou 8. |
neighborhoodSize | Número inteiro, padrão: nulo | Tamanho da vizinhança do bloco (para evitar artefatos de limite do bloco). O padrão é 2 * tamanho. |
seeds | Imagem, padrão: null | Se fornecidos, todos os pixels com valor diferente de zero serão usados como locais de propagação. Pixels que se tocam (conforme especificado por "conectividade") são considerados pertencentes ao mesmo cluster. |
Exemplos
Editor de código (JavaScript)
// Note that the compactness and size parameters can have a significant impact
// on the result. They must be adjusted to meet image-specific characteristics
// and patterns, typically through trial. Pixel scale (map zoom level) is also
// important to consider. When exploring interactively through map tile
// visualization, the segmentation result it dependent on zoom level. If you
// need to evaluate the result at a specific scale, call .reproject() on the
// result, but do so with caution because it overrides the default scaling
// behavior that makes tile computation fast and efficient.
// Load a NAIP image for a neighborhood in Las Vegas.
var naip = ee.Image('USDA/NAIP/DOQQ/m_3611554_sw_11_1_20170613');
// Apply the SNIC algorithm to the image.
var snic = ee.Algorithms.Image.Segmentation.SNIC({
image: naip,
size: 30,
compactness: 0.1,
connectivity: 8,
});
// Display the original NAIP image as RGB.
// Lock map zoom to maintain the desired scale of the segmentation computation.
Map.setLocked(false, 18, 18);
Map.setCenter(-115.32053, 36.182016, 18);
Map.addLayer(naip, null, 'NAIP RGB');
// Display the clusters.
Map.addLayer(snic.randomVisualizer(), null, 'Clusters');
// Display the RGB cluster means.
var visParams = {
bands: ['R_mean', 'G_mean', 'B_mean'],
min: 0,
max: 255
};
Map.addLayer(snic, visParams, 'RGB cluster means');
Configuração do Python
Consulte a página
Ambiente Python para informações sobre a API Python e como usar
geemap para desenvolvimento interativo.
import ee
import geemap.core as geemap
Colab (Python)
# Note that the compactness and size parameters can have a significant impact
# on the result. They must be adjusted to meet image-specific characteristics
# and patterns, typically through trial. Pixel scale (map zoom level) is also
# important to consider. When exploring interactively through map tile
# visualization, the segmentation result it dependent on zoom level. If you
# need to evaluate the result at a specific scale, call .reproject() on the
# result, but do so with caution because it overrides the default scaling
# behavior that makes tile computation fast and efficient.
# Load a NAIP image for a neighborhood in Las Vegas.
naip = ee.Image('USDA/NAIP/DOQQ/m_3611554_sw_11_1_20170613')
# Apply the SNIC algorithm to the image.
snic = ee.Algorithms.Image.Segmentation.SNIC(
image=naip, size=30, compactness=0.1, connectivity=8
)
# Display the original NAIP image as RGB.
m = geemap.Map()
m.set_center(-115.32053, 36.182016, 18)
m.add_layer(naip, None, 'NAIP RGB')
# Display the clusters.
m.add_layer(snic.randomVisualizer(), None, 'Clusters')
# Display the RGB cluster means.
vis_params = {'bands': ['R_mean', 'G_mean', 'B_mean'], 'min': 0, 'max': 255}
m.add_layer(snic, vis_params, 'RGB cluster means')
m
Exceto em caso de indicação contrária, o conteúdo desta página é licenciado de acordo com a Licença de atribuição 4.0 do Creative Commons, e as amostras de código são licenciadas de acordo com a Licença Apache 2.0. Para mais detalhes, consulte as políticas do site do Google Developers. Java é uma marca registrada da Oracle e/ou afiliadas.
Última atualização 2025-07-26 UTC.
[null,null,["Última atualização 2025-07-26 UTC."],[[["\u003cp\u003eApplies the Simple Non-Iterative Clustering (SNIC) algorithm to generate superpixels from an image.\u003c/p\u003e\n"],["\u003cp\u003eOutputs an image containing cluster IDs and per-cluster band averages.\u003c/p\u003e\n"],["\u003cp\u003eAlgorithm parameters like \u003ccode\u003esize\u003c/code\u003e and \u003ccode\u003ecompactness\u003c/code\u003e impact the resulting superpixel shapes and sizes and may require adjustments.\u003c/p\u003e\n"],["\u003cp\u003eIf no seed locations are provided, the algorithm generates them based on a grid defined by the \u003ccode\u003esize\u003c/code\u003e parameter.\u003c/p\u003e\n"],["\u003cp\u003eSuperpixel clustering is sensitive to pixel scale and zoom level during interactive visualization.\u003c/p\u003e\n"]]],["SNIC clustering segments an image into superpixels, outputting cluster IDs and per-cluster averages for each input band. Key parameters include `size` (seed spacing), `compactness` (cluster shape), and `connectivity`. A user can provide `seeds` to define seed locations; otherwise, they are generated. The output `Image` includes cluster IDs, band averages, and optionally generated seed locations. Adjusting `size` and `compactness` is crucial for optimal results, which are also affected by pixel scale.\n"],null,["# ee.Algorithms.Image.Segmentation.SNIC\n\nSuperpixel clustering based on SNIC (Simple Non-Iterative Clustering). Outputs a band of cluster IDs and the per-cluster averages for each of the input bands. If the 'seeds' image isn't provided as input, the output will include a 'seeds' band containing the generated seed locations. See: Achanta, Radhakrishna and Susstrunk, Sabine, 'Superpixels and Polygons using Simple Non-Iterative Clustering', CVPR, 2017.\n\n\u003cbr /\u003e\n\n| Usage | Returns |\n|----------------------------------------------------------------------------------------------------------------------------------|---------|\n| `ee.Algorithms.Image.Segmentation.SNIC(image, `*size* `, `*compactness* `, `*connectivity* `, `*neighborhoodSize* `, `*seeds*`)` | Image |\n\n| Argument | Type | Details |\n|--------------------|------------------------|----------------------------------------------------------------------------------------------------------------------------------------------------------------------|\n| `image` | Image | The input image for clustering. |\n| `size` | Integer, default: 5 | The superpixel seed location spacing, in pixels. If 'seeds' image is provided, no grid is produced. |\n| `compactness` | Float, default: 1 | Compactness factor. Larger values cause clusters to be more compact (square). Setting this to 0 disables spatial distance weighting. |\n| `connectivity` | Integer, default: 8 | Connectivity. Either 4 or 8. |\n| `neighborhoodSize` | Integer, default: null | Tile neighborhood size (to avoid tile boundary artifacts). Defaults to 2 \\* size. |\n| `seeds` | Image, default: null | If provided, any non-zero valued pixels are used as seed locations. Pixels that touch (as specified by 'connectivity') are considered to belong to the same cluster. |\n\nExamples\n--------\n\n### Code Editor (JavaScript)\n\n```javascript\n// Note that the compactness and size parameters can have a significant impact\n// on the result. They must be adjusted to meet image-specific characteristics\n// and patterns, typically through trial. Pixel scale (map zoom level) is also\n// important to consider. When exploring interactively through map tile\n// visualization, the segmentation result it dependent on zoom level. If you\n// need to evaluate the result at a specific scale, call .reproject() on the\n// result, but do so with caution because it overrides the default scaling\n// behavior that makes tile computation fast and efficient.\n\n\n// Load a NAIP image for a neighborhood in Las Vegas.\nvar naip = ee.Image('USDA/NAIP/DOQQ/m_3611554_sw_11_1_20170613');\n\n// Apply the SNIC algorithm to the image.\nvar snic = ee.Algorithms.Image.Segmentation.SNIC({\n image: naip,\n size: 30,\n compactness: 0.1,\n connectivity: 8,\n});\n\n// Display the original NAIP image as RGB.\n// Lock map zoom to maintain the desired scale of the segmentation computation.\nMap.setLocked(false, 18, 18);\nMap.setCenter(-115.32053, 36.182016, 18);\nMap.addLayer(naip, null, 'NAIP RGB');\n\n// Display the clusters.\nMap.addLayer(snic.randomVisualizer(), null, 'Clusters');\n\n// Display the RGB cluster means.\nvar visParams = {\n bands: ['R_mean', 'G_mean', 'B_mean'],\n min: 0,\n max: 255\n};\nMap.addLayer(snic, visParams, 'RGB cluster means');\n```\nPython setup\n\nSee the [Python Environment](/earth-engine/guides/python_install) page for information on the Python API and using\n`geemap` for interactive development. \n\n```python\nimport ee\nimport geemap.core as geemap\n```\n\n### Colab (Python)\n\n```python\n# Note that the compactness and size parameters can have a significant impact\n# on the result. They must be adjusted to meet image-specific characteristics\n# and patterns, typically through trial. Pixel scale (map zoom level) is also\n# important to consider. When exploring interactively through map tile\n# visualization, the segmentation result it dependent on zoom level. If you\n# need to evaluate the result at a specific scale, call .reproject() on the\n# result, but do so with caution because it overrides the default scaling\n# behavior that makes tile computation fast and efficient.\n\n\n# Load a NAIP image for a neighborhood in Las Vegas.\nnaip = ee.Image('USDA/NAIP/DOQQ/m_3611554_sw_11_1_20170613')\n\n# Apply the SNIC algorithm to the image.\nsnic = ee.Algorithms.Image.Segmentation.SNIC(\n image=naip, size=30, compactness=0.1, connectivity=8\n)\n\n# Display the original NAIP image as RGB.\nm = geemap.Map()\nm.set_center(-115.32053, 36.182016, 18)\nm.add_layer(naip, None, 'NAIP RGB')\n\n# Display the clusters.\nm.add_layer(snic.randomVisualizer(), None, 'Clusters')\n\n# Display the RGB cluster means.\nvis_params = {'bands': ['R_mean', 'G_mean', 'B_mean'], 'min': 0, 'max': 255}\nm.add_layer(snic, vis_params, 'RGB cluster means')\nm\n```"]]
