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ee.ImageCollection.min
Organiza tus páginas con colecciones
Guarda y categoriza el contenido según tus preferencias.
Reduce una colección de imágenes calculando el valor mínimo de cada píxel en la pila de todas las bandas coincidentes. Las bandas coinciden por nombre.
Uso Muestra ImageCollection. min ()Imagen
Argumento Tipo Detalles esta: collection ImageCollection Es la colección de imágenes que se reducirá.
Ejemplos
Editor de código (JavaScript)
// Sentinel-2 image collection for July 2021 intersecting a point of interest.
// Reflectance, cloud probability, and scene classification bands are selected.
var col = ee . ImageCollection ( 'COPERNICUS/S2_SR' )
. filterDate ( '2021-07-01' , '2021-08-01' )
. filterBounds ( ee . Geometry . Point ( - 122.373 , 37.448 ))
. select ( 'B.*|MSK_CLDPRB|SCL' );
// Visualization parameters for reflectance RGB.
var visRefl = {
bands : [ 'B11' , 'B8' , 'B3' ],
min : 0 ,
max : 4000
};
Map . setCenter ( - 122.373 , 37.448 , 9 );
Map . addLayer ( col , visRefl , 'Collection reference' , false );
// Reduce the collection to a single image using a variety of methods.
var mean = col . mean ();
Map . addLayer ( mean , visRefl , 'Mean (B11, B8, B3)' );
var median = col . median ();
Map . addLayer ( median , visRefl , 'Median (B11, B8, B3)' );
var min = col . min ();
Map . addLayer ( min , visRefl , 'Min (B11, B8, B3)' );
var max = col . max ();
Map . addLayer ( max , visRefl , 'Max (B11, B8, B3)' );
var sum = col . sum ();
Map . addLayer ( sum ,
{ bands : [ 'MSK_CLDPRB' ], min : 0 , max : 500 }, 'Sum (MSK_CLDPRB)' );
var product = col . product ();
Map . addLayer ( product ,
{ bands : [ 'MSK_CLDPRB' ], min : 0 , max : 1e10 }, 'Product (MSK_CLDPRB)' );
// ee.ImageCollection.mode returns the most common value. If multiple mode
// values occur, the minimum mode value is returned.
var mode = col . mode ();
Map . addLayer ( mode , { bands : [ 'SCL' ], min : 1 , max : 11 }, 'Mode (pixel class)' );
// ee.ImageCollection.count returns the frequency of valid observations. Here,
// image pixels are masked based on cloud probability to add valid observation
// variability to the collection. Note that pixels with no valid observations
// are masked out of the returned image.
var notCloudCol = col . map ( function ( img ) {
return img . updateMask ( img . select ( 'MSK_CLDPRB' ). lte ( 10 ));
});
var count = notCloudCol . count ();
Map . addLayer ( count , { min : 1 , max : 5 }, 'Count (not cloud observations)' );
// ee.ImageCollection.mosaic composites images according to their position in
// the collection (priority is last to first) and pixel mask status, where
// invalid (mask value 0) pixels are filled by preceding valid (mask value >0)
// pixels.
var mosaic = notCloudCol . mosaic ();
Map . addLayer ( mosaic , visRefl , 'Mosaic (B11, B8, B3)' );
Configuración de Python
Consulta la página
Entorno de Python para obtener información sobre la API de Python y el uso de geemap para el desarrollo interactivo.
import ee
import geemap.core as geemap
Colab (Python)
# Sentinel-2 image collection for July 2021 intersecting a point of interest.
# Reflectance, cloud probability, and scene classification bands are selected.
col = (
ee . ImageCollection ( 'COPERNICUS/S2_SR' )
. filterDate ( '2021-07-01' , '2021-08-01' )
. filterBounds ( ee . Geometry . Point ( - 122.373 , 37.448 ))
. select ( 'B.*|MSK_CLDPRB|SCL' )
)
# Visualization parameters for reflectance RGB.
vis_refl = { 'bands' : [ 'B11' , 'B8' , 'B3' ], 'min' : 0 , 'max' : 4000 }
m = geemap . Map ()
m . set_center ( - 122.373 , 37.448 , 9 )
m . add_layer ( col , vis_refl , 'Collection reference' , False )
# Reduce the collection to a single image using a variety of methods.
mean = col . mean ()
m . add_layer ( mean , vis_refl , 'Mean (B11, B8, B3)' )
median = col . median ()
m . add_layer ( median , vis_refl , 'Median (B11, B8, B3)' )
min = col . min ()
m . add_layer ( min , vis_refl , 'Min (B11, B8, B3)' )
max = col . max ()
m . add_layer ( max , vis_refl , 'Max (B11, B8, B3)' )
sum = col . sum ()
m . add_layer (
sum , { 'bands' : [ 'MSK_CLDPRB' ], 'min' : 0 , 'max' : 500 }, 'Sum (MSK_CLDPRB)'
)
product = col . product ()
m . add_layer (
product ,
{ 'bands' : [ 'MSK_CLDPRB' ], 'min' : 0 , 'max' : 1e10 },
'Product (MSK_CLDPRB)' ,
)
# ee.ImageCollection.mode returns the most common value. If multiple mode
# values occur, the minimum mode value is returned.
mode = col . mode ()
m . add_layer (
mode , { 'bands' : [ 'SCL' ], 'min' : 1 , 'max' : 11 }, 'Mode (pixel class)'
)
# ee.ImageCollection.count returns the frequency of valid observations. Here,
# image pixels are masked based on cloud probability to add valid observation
# variability to the collection. Note that pixels with no valid observations
# are masked out of the returned image.
not_cloud_col = col . map (
lambda img : img . updateMask ( img . select ( 'MSK_CLDPRB' ) . lte ( 10 ))
)
count = not_cloud_col . count ()
m . add_layer ( count , { 'min' : 1 , 'max' : 5 }, 'Count (not cloud observations)' )
# ee.ImageCollection.mosaic composites images according to their position in
# the collection (priority is last to first) and pixel mask status, where
# invalid (mask value 0) pixels are filled by preceding valid (mask value >0)
# pixels.
mosaic = not_cloud_col . mosaic ()
m . add_layer ( mosaic , vis_refl , 'Mosaic (B11, B8, B3)' )
m
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Salvo que se indique lo contrario, el contenido de esta página está sujeto a la licencia Atribución 4.0 de Creative Commons , y los ejemplos de código están sujetos a la licencia Apache 2.0 . Para obtener más información, consulta las políticas del sitio de Google Developers . Java es una marca registrada de Oracle o sus afiliados.
Última actualización: 2025-07-26 (UTC)
¿Quieres brindar más información?
[[["Fácil de comprender","easyToUnderstand","thumb-up"],["Resolvió mi problema","solvedMyProblem","thumb-up"],["Otro","otherUp","thumb-up"]],[["Falta la información que necesito","missingTheInformationINeed","thumb-down"],["Muy complicado o demasiados pasos","tooComplicatedTooManySteps","thumb-down"],["Desactualizado","outOfDate","thumb-down"],["Problema de traducción","translationIssue","thumb-down"],["Problema con las muestras o los códigos","samplesCodeIssue","thumb-down"],["Otro","otherDown","thumb-down"]],["Última actualización: 2025-07-26 (UTC)"],[],["The `min()` function reduces an image collection to a single image by computing the minimum pixel value across all images, matching bands by name. It operates on an `ImageCollection` and returns a single `Image`. The process is demonstrated in both JavaScript and Python code examples, showcasing how to apply it to Sentinel-2 data and visualize the result. Other methods like `mean`, `median`, `max`, and `sum` are also presented.\n"]]
