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비상업용 자격 요건을 인증 해야 합니다.
의견 보내기
ee.ImageCollection.aggregate_histogram
컬렉션을 사용해 정리하기
내 환경설정을 기준으로 콘텐츠를 저장하고 분류하세요.
컬렉션에 있는 객체의 지정된 속성을 집계하여 선택한 속성의 히스토그램을 계산합니다.
사용 반환 값 ImageCollection. aggregate_histogram (property)딕셔너리
인수 유형 세부정보 다음과 같은 경우: collection FeatureCollection 집계할 컬렉션입니다. property문자열 컬렉션의 각 요소에서 사용할 속성입니다.
예
코드 편집기 (JavaScript)
// A Lansat 8 TOA image collection for a specific year and location.
var col = ee . ImageCollection ( "LANDSAT/LC08/C02/T1_TOA" )
. filterBounds ( ee . Geometry . Point ([ - 122.073 , 37.188 ]))
. filterDate ( '2018' , '2019' );
// An image property of interest, percent cloud cover in this case.
var prop = 'CLOUD_COVER' ;
// Use ee.ImageCollection.aggregate_* functions to fetch information about
// values of a selected property across all images in the collection. For
// example, produce a list of all values, get counts, and calculate statistics.
print ( 'List of property values' , col . aggregate_array ( prop ));
print ( 'Count of property values' , col . aggregate_count ( prop ));
print ( 'Count of distinct property values' , col . aggregate_count_distinct ( prop ));
print ( 'First collection element property value' , col . aggregate_first ( prop ));
print ( 'Histogram of property values' , col . aggregate_histogram ( prop ));
print ( 'Min of property values' , col . aggregate_min ( prop ));
print ( 'Max of property values' , col . aggregate_max ( prop ));
// The following methods are applicable to numerical properties only.
print ( 'Mean of property values' , col . aggregate_mean ( prop ));
print ( 'Sum of property values' , col . aggregate_sum ( prop ));
print ( 'Product of property values' , col . aggregate_product ( prop ));
print ( 'Std dev (sample) of property values' , col . aggregate_sample_sd ( prop ));
print ( 'Variance (sample) of property values' , col . aggregate_sample_var ( prop ));
print ( 'Std dev (total) of property values' , col . aggregate_total_sd ( prop ));
print ( 'Variance (total) of property values' , col . aggregate_total_var ( prop ));
print ( 'Summary stats of property values' , col . aggregate_stats ( prop ));
// Note that if the property is formatted as a string, min and max will
// respectively return the first and last values according to alphanumeric
// order of the property values.
var propString = 'LANDSAT_SCENE_ID' ;
print ( 'List of property values (string)' , col . aggregate_array ( propString ));
print ( 'Min of property values (string)' , col . aggregate_min ( propString ));
print ( 'Max of property values (string)' , col . aggregate_max ( propString ));
Python 설정
Python API 및 geemap를 사용한 대화형 개발에 관한 자세한 내용은
Python 환경 페이지를 참고하세요.
import ee
import geemap.core as geemap
Colab (Python)
from pprint import pprint
# A Lansat 8 TOA image collection for a specific year and location.
col = ee . ImageCollection ( "LANDSAT/LC08/C02/T1_TOA" ) . filterBounds (
ee . Geometry . Point ([ - 122.073 , 37.188 ])) . filterDate ( '2018' , '2019' )
# An image property of interest, percent cloud cover in this case.
prop = 'CLOUD_COVER'
# Use ee.ImageCollection.aggregate_* functions to fetch information about
# values of a selected property across all images in the collection. For
# example, produce a list of all values, get counts, and calculate statistics.
print ( 'List of property values:' , col . aggregate_array ( prop ) . getInfo ())
print ( 'Count of property values:' , col . aggregate_count ( prop ) . getInfo ())
print ( 'Count of distinct property values:' ,
col . aggregate_count_distinct ( prop ) . getInfo ())
print ( 'First collection element property value:' ,
col . aggregate_first ( prop ) . getInfo ())
print ( 'Histogram of property values:' )
pprint ( col . aggregate_histogram ( prop ) . getInfo ())
print ( 'Min of property values:' , col . aggregate_min ( prop ) . getInfo ())
print ( 'Max of property values:' , col . aggregate_max ( prop ) . getInfo ())
# The following methods are applicable to numerical properties only.
print ( 'Mean of property values:' , col . aggregate_mean ( prop ) . getInfo ())
print ( 'Sum of property values:' , col . aggregate_sum ( prop ) . getInfo ())
print ( 'Product of property values:' , col . aggregate_product ( prop ) . getInfo ())
print ( 'Std dev (sample) of property values:' ,
col . aggregate_sample_sd ( prop ) . getInfo ())
print ( 'Variance (sample) of property values:' ,
col . aggregate_sample_var ( prop ) . getInfo ())
print ( 'Std dev (total) of property values:' ,
col . aggregate_total_sd ( prop ) . getInfo ())
print ( 'Variance (total) of property values:' ,
col . aggregate_total_var ( prop ) . getInfo ())
print ( 'Summary stats of property values:' )
pprint ( col . aggregate_stats ( prop ) . getInfo ())
# Note that if the property is formatted as a string, min and max will
# respectively return the first and last values according to alphanumeric
# order of the property values.
prop_string = 'LANDSAT_SCENE_ID'
print ( 'List of property values (string):' ,
col . aggregate_array ( prop_string ) . getInfo ())
print ( 'Min of property values (string):' ,
col . aggregate_min ( prop_string ) . getInfo ())
print ( 'Max of property values (string):' ,
col . aggregate_max ( prop_string ) . getInfo ())
의견 보내기
달리 명시되지 않는 한 이 페이지의 콘텐츠에는 Creative Commons Attribution 4.0 라이선스 에 따라 라이선스가 부여되며, 코드 샘플에는 Apache 2.0 라이선스 에 따라 라이선스가 부여됩니다. 자세한 내용은 Google Developers 사이트 정책 을 참조하세요. 자바는 Oracle 및/또는 Oracle 계열사의 등록 상표입니다.
최종 업데이트: 2025-07-26(UTC)
의견을 전달하고 싶나요?
[[["이해하기 쉬움","easyToUnderstand","thumb-up"],["문제가 해결됨","solvedMyProblem","thumb-up"],["기타","otherUp","thumb-up"]],[["필요한 정보가 없음","missingTheInformationINeed","thumb-down"],["너무 복잡함/단계 수가 너무 많음","tooComplicatedTooManySteps","thumb-down"],["오래됨","outOfDate","thumb-down"],["번역 문제","translationIssue","thumb-down"],["샘플/코드 문제","samplesCodeIssue","thumb-down"],["기타","otherDown","thumb-down"]],["최종 업데이트: 2025-07-26(UTC)"],[[["`aggregate_histogram` calculates a histogram of a specified property across an ImageCollection."],["It takes the collection and the property name as inputs."],["The output is a dictionary containing the histogram data (e.g., bucket boundaries and counts)."],["This function is useful for understanding the distribution of property values within a collection, like cloud cover across satellite images."],["You can use the resulting histogram to visualize or analyze the frequency of different property values."]]],["The content details the use of `aggregate_histogram` and other `aggregate_*` functions within `ee.ImageCollection`. These functions analyze a collection's objects, focusing on a specified property. `aggregate_histogram` specifically generates a histogram of values for the chosen property, returning a dictionary. Other `aggregate_*` functions compute statistics, such as min, max, mean, sum, counts, variance and more. They operate on numerical properties, but some handle strings as well, using alphanumeric ordering.\n"]]
