@Generated(value="com.amazonaws:aws-java-sdk-code-generator") public interface AmazonRekognitionAsync extends AmazonRekognition
AsyncHandler can be used to receive
notification when an asynchronous operation completes.
Note: Do not directly implement this interface, new methods are added to it regularly. Extend from
AbstractAmazonRekognitionAsync instead.
This is the Amazon Rekognition API reference.
ENDPOINT_PREFIX| Modifier and Type | Method and Description |
|---|---|
Future<CompareFacesResult> |
compareFacesAsync(CompareFacesRequest compareFacesRequest)
Compares a face in the source input image with each of the 100 largest faces detected in the target
input image.
|
Future<CompareFacesResult> |
compareFacesAsync(CompareFacesRequest compareFacesRequest,
AsyncHandler<CompareFacesRequest,CompareFacesResult> asyncHandler)
Compares a face in the source input image with each of the 100 largest faces detected in the target
input image.
|
Future<CreateCollectionResult> |
createCollectionAsync(CreateCollectionRequest createCollectionRequest)
Creates a collection in an AWS Region.
|
Future<CreateCollectionResult> |
createCollectionAsync(CreateCollectionRequest createCollectionRequest,
AsyncHandler<CreateCollectionRequest,CreateCollectionResult> asyncHandler)
Creates a collection in an AWS Region.
|
Future<CreateStreamProcessorResult> |
createStreamProcessorAsync(CreateStreamProcessorRequest createStreamProcessorRequest)
Creates an Amazon Rekognition stream processor that you can use to detect and recognize faces in a streaming
video.
|
Future<CreateStreamProcessorResult> |
createStreamProcessorAsync(CreateStreamProcessorRequest createStreamProcessorRequest,
AsyncHandler<CreateStreamProcessorRequest,CreateStreamProcessorResult> asyncHandler)
Creates an Amazon Rekognition stream processor that you can use to detect and recognize faces in a streaming
video.
|
Future<DeleteCollectionResult> |
deleteCollectionAsync(DeleteCollectionRequest deleteCollectionRequest)
Deletes the specified collection.
|
Future<DeleteCollectionResult> |
deleteCollectionAsync(DeleteCollectionRequest deleteCollectionRequest,
AsyncHandler<DeleteCollectionRequest,DeleteCollectionResult> asyncHandler)
Deletes the specified collection.
|
Future<DeleteFacesResult> |
deleteFacesAsync(DeleteFacesRequest deleteFacesRequest)
Deletes faces from a collection.
|
Future<DeleteFacesResult> |
deleteFacesAsync(DeleteFacesRequest deleteFacesRequest,
AsyncHandler<DeleteFacesRequest,DeleteFacesResult> asyncHandler)
Deletes faces from a collection.
|
Future<DeleteStreamProcessorResult> |
deleteStreamProcessorAsync(DeleteStreamProcessorRequest deleteStreamProcessorRequest)
Deletes the stream processor identified by
Name. |
Future<DeleteStreamProcessorResult> |
deleteStreamProcessorAsync(DeleteStreamProcessorRequest deleteStreamProcessorRequest,
AsyncHandler<DeleteStreamProcessorRequest,DeleteStreamProcessorResult> asyncHandler)
Deletes the stream processor identified by
Name. |
Future<DescribeCollectionResult> |
describeCollectionAsync(DescribeCollectionRequest describeCollectionRequest)
Describes the specified collection.
|
Future<DescribeCollectionResult> |
describeCollectionAsync(DescribeCollectionRequest describeCollectionRequest,
AsyncHandler<DescribeCollectionRequest,DescribeCollectionResult> asyncHandler)
Describes the specified collection.
|
Future<DescribeStreamProcessorResult> |
describeStreamProcessorAsync(DescribeStreamProcessorRequest describeStreamProcessorRequest)
Provides information about a stream processor created by CreateStreamProcessor.
|
Future<DescribeStreamProcessorResult> |
describeStreamProcessorAsync(DescribeStreamProcessorRequest describeStreamProcessorRequest,
AsyncHandler<DescribeStreamProcessorRequest,DescribeStreamProcessorResult> asyncHandler)
Provides information about a stream processor created by CreateStreamProcessor.
|
Future<DetectFacesResult> |
detectFacesAsync(DetectFacesRequest detectFacesRequest)
Detects faces within an image that is provided as input.
|
Future<DetectFacesResult> |
detectFacesAsync(DetectFacesRequest detectFacesRequest,
AsyncHandler<DetectFacesRequest,DetectFacesResult> asyncHandler)
Detects faces within an image that is provided as input.
|
Future<DetectLabelsResult> |
detectLabelsAsync(DetectLabelsRequest detectLabelsRequest)
Detects instances of real-world entities within an image (JPEG or PNG) provided as input.
|
Future<DetectLabelsResult> |
detectLabelsAsync(DetectLabelsRequest detectLabelsRequest,
AsyncHandler<DetectLabelsRequest,DetectLabelsResult> asyncHandler)
Detects instances of real-world entities within an image (JPEG or PNG) provided as input.
|
Future<DetectModerationLabelsResult> |
detectModerationLabelsAsync(DetectModerationLabelsRequest detectModerationLabelsRequest)
Detects explicit or suggestive adult content in a specified JPEG or PNG format image.
|
Future<DetectModerationLabelsResult> |
detectModerationLabelsAsync(DetectModerationLabelsRequest detectModerationLabelsRequest,
AsyncHandler<DetectModerationLabelsRequest,DetectModerationLabelsResult> asyncHandler)
Detects explicit or suggestive adult content in a specified JPEG or PNG format image.
|
Future<DetectTextResult> |
detectTextAsync(DetectTextRequest detectTextRequest)
Detects text in the input image and converts it into machine-readable text.
|
Future<DetectTextResult> |
detectTextAsync(DetectTextRequest detectTextRequest,
AsyncHandler<DetectTextRequest,DetectTextResult> asyncHandler)
Detects text in the input image and converts it into machine-readable text.
|
Future<GetCelebrityInfoResult> |
getCelebrityInfoAsync(GetCelebrityInfoRequest getCelebrityInfoRequest)
Gets the name and additional information about a celebrity based on his or her Amazon Rekognition ID.
|
Future<GetCelebrityInfoResult> |
getCelebrityInfoAsync(GetCelebrityInfoRequest getCelebrityInfoRequest,
AsyncHandler<GetCelebrityInfoRequest,GetCelebrityInfoResult> asyncHandler)
Gets the name and additional information about a celebrity based on his or her Amazon Rekognition ID.
|
Future<GetCelebrityRecognitionResult> |
getCelebrityRecognitionAsync(GetCelebrityRecognitionRequest getCelebrityRecognitionRequest)
Gets the celebrity recognition results for a Amazon Rekognition Video analysis started by
StartCelebrityRecognition.
|
Future<GetCelebrityRecognitionResult> |
getCelebrityRecognitionAsync(GetCelebrityRecognitionRequest getCelebrityRecognitionRequest,
AsyncHandler<GetCelebrityRecognitionRequest,GetCelebrityRecognitionResult> asyncHandler)
Gets the celebrity recognition results for a Amazon Rekognition Video analysis started by
StartCelebrityRecognition.
|
Future<GetContentModerationResult> |
getContentModerationAsync(GetContentModerationRequest getContentModerationRequest)
Gets the content moderation analysis results for a Amazon Rekognition Video analysis started by
StartContentModeration.
|
Future<GetContentModerationResult> |
getContentModerationAsync(GetContentModerationRequest getContentModerationRequest,
AsyncHandler<GetContentModerationRequest,GetContentModerationResult> asyncHandler)
Gets the content moderation analysis results for a Amazon Rekognition Video analysis started by
StartContentModeration.
|
Future<GetFaceDetectionResult> |
getFaceDetectionAsync(GetFaceDetectionRequest getFaceDetectionRequest)
Gets face detection results for a Amazon Rekognition Video analysis started by StartFaceDetection.
|
Future<GetFaceDetectionResult> |
getFaceDetectionAsync(GetFaceDetectionRequest getFaceDetectionRequest,
AsyncHandler<GetFaceDetectionRequest,GetFaceDetectionResult> asyncHandler)
Gets face detection results for a Amazon Rekognition Video analysis started by StartFaceDetection.
|
Future<GetFaceSearchResult> |
getFaceSearchAsync(GetFaceSearchRequest getFaceSearchRequest)
Gets the face search results for Amazon Rekognition Video face search started by StartFaceSearch.
|
Future<GetFaceSearchResult> |
getFaceSearchAsync(GetFaceSearchRequest getFaceSearchRequest,
AsyncHandler<GetFaceSearchRequest,GetFaceSearchResult> asyncHandler)
Gets the face search results for Amazon Rekognition Video face search started by StartFaceSearch.
|
Future<GetLabelDetectionResult> |
getLabelDetectionAsync(GetLabelDetectionRequest getLabelDetectionRequest)
Gets the label detection results of a Amazon Rekognition Video analysis started by StartLabelDetection.
|
Future<GetLabelDetectionResult> |
getLabelDetectionAsync(GetLabelDetectionRequest getLabelDetectionRequest,
AsyncHandler<GetLabelDetectionRequest,GetLabelDetectionResult> asyncHandler)
Gets the label detection results of a Amazon Rekognition Video analysis started by StartLabelDetection.
|
Future<GetPersonTrackingResult> |
getPersonTrackingAsync(GetPersonTrackingRequest getPersonTrackingRequest)
Gets the path tracking results of a Amazon Rekognition Video analysis started by StartPersonTracking.
|
Future<GetPersonTrackingResult> |
getPersonTrackingAsync(GetPersonTrackingRequest getPersonTrackingRequest,
AsyncHandler<GetPersonTrackingRequest,GetPersonTrackingResult> asyncHandler)
Gets the path tracking results of a Amazon Rekognition Video analysis started by StartPersonTracking.
|
Future<IndexFacesResult> |
indexFacesAsync(IndexFacesRequest indexFacesRequest)
Detects faces in the input image and adds them to the specified collection.
|
Future<IndexFacesResult> |
indexFacesAsync(IndexFacesRequest indexFacesRequest,
AsyncHandler<IndexFacesRequest,IndexFacesResult> asyncHandler)
Detects faces in the input image and adds them to the specified collection.
|
Future<ListCollectionsResult> |
listCollectionsAsync(ListCollectionsRequest listCollectionsRequest)
Returns list of collection IDs in your account.
|
Future<ListCollectionsResult> |
listCollectionsAsync(ListCollectionsRequest listCollectionsRequest,
AsyncHandler<ListCollectionsRequest,ListCollectionsResult> asyncHandler)
Returns list of collection IDs in your account.
|
Future<ListFacesResult> |
listFacesAsync(ListFacesRequest listFacesRequest)
Returns metadata for faces in the specified collection.
|
Future<ListFacesResult> |
listFacesAsync(ListFacesRequest listFacesRequest,
AsyncHandler<ListFacesRequest,ListFacesResult> asyncHandler)
Returns metadata for faces in the specified collection.
|
Future<ListStreamProcessorsResult> |
listStreamProcessorsAsync(ListStreamProcessorsRequest listStreamProcessorsRequest)
Gets a list of stream processors that you have created with CreateStreamProcessor.
|
Future<ListStreamProcessorsResult> |
listStreamProcessorsAsync(ListStreamProcessorsRequest listStreamProcessorsRequest,
AsyncHandler<ListStreamProcessorsRequest,ListStreamProcessorsResult> asyncHandler)
Gets a list of stream processors that you have created with CreateStreamProcessor.
|
Future<RecognizeCelebritiesResult> |
recognizeCelebritiesAsync(RecognizeCelebritiesRequest recognizeCelebritiesRequest)
Returns an array of celebrities recognized in the input image.
|
Future<RecognizeCelebritiesResult> |
recognizeCelebritiesAsync(RecognizeCelebritiesRequest recognizeCelebritiesRequest,
AsyncHandler<RecognizeCelebritiesRequest,RecognizeCelebritiesResult> asyncHandler)
Returns an array of celebrities recognized in the input image.
|
Future<SearchFacesResult> |
searchFacesAsync(SearchFacesRequest searchFacesRequest)
For a given input face ID, searches for matching faces in the collection the face belongs to.
|
Future<SearchFacesResult> |
searchFacesAsync(SearchFacesRequest searchFacesRequest,
AsyncHandler<SearchFacesRequest,SearchFacesResult> asyncHandler)
For a given input face ID, searches for matching faces in the collection the face belongs to.
|
Future<SearchFacesByImageResult> |
searchFacesByImageAsync(SearchFacesByImageRequest searchFacesByImageRequest)
For a given input image, first detects the largest face in the image, and then searches the specified collection
for matching faces.
|
Future<SearchFacesByImageResult> |
searchFacesByImageAsync(SearchFacesByImageRequest searchFacesByImageRequest,
AsyncHandler<SearchFacesByImageRequest,SearchFacesByImageResult> asyncHandler)
For a given input image, first detects the largest face in the image, and then searches the specified collection
for matching faces.
|
Future<StartCelebrityRecognitionResult> |
startCelebrityRecognitionAsync(StartCelebrityRecognitionRequest startCelebrityRecognitionRequest)
Starts asynchronous recognition of celebrities in a stored video.
|
Future<StartCelebrityRecognitionResult> |
startCelebrityRecognitionAsync(StartCelebrityRecognitionRequest startCelebrityRecognitionRequest,
AsyncHandler<StartCelebrityRecognitionRequest,StartCelebrityRecognitionResult> asyncHandler)
Starts asynchronous recognition of celebrities in a stored video.
|
Future<StartContentModerationResult> |
startContentModerationAsync(StartContentModerationRequest startContentModerationRequest)
Starts asynchronous detection of explicit or suggestive adult content in a stored video.
|
Future<StartContentModerationResult> |
startContentModerationAsync(StartContentModerationRequest startContentModerationRequest,
AsyncHandler<StartContentModerationRequest,StartContentModerationResult> asyncHandler)
Starts asynchronous detection of explicit or suggestive adult content in a stored video.
|
Future<StartFaceDetectionResult> |
startFaceDetectionAsync(StartFaceDetectionRequest startFaceDetectionRequest)
Starts asynchronous detection of faces in a stored video.
|
Future<StartFaceDetectionResult> |
startFaceDetectionAsync(StartFaceDetectionRequest startFaceDetectionRequest,
AsyncHandler<StartFaceDetectionRequest,StartFaceDetectionResult> asyncHandler)
Starts asynchronous detection of faces in a stored video.
|
Future<StartFaceSearchResult> |
startFaceSearchAsync(StartFaceSearchRequest startFaceSearchRequest)
Starts the asynchronous search for faces in a collection that match the faces of persons detected in a stored
video.
|
Future<StartFaceSearchResult> |
startFaceSearchAsync(StartFaceSearchRequest startFaceSearchRequest,
AsyncHandler<StartFaceSearchRequest,StartFaceSearchResult> asyncHandler)
Starts the asynchronous search for faces in a collection that match the faces of persons detected in a stored
video.
|
Future<StartLabelDetectionResult> |
startLabelDetectionAsync(StartLabelDetectionRequest startLabelDetectionRequest)
Starts asynchronous detection of labels in a stored video.
|
Future<StartLabelDetectionResult> |
startLabelDetectionAsync(StartLabelDetectionRequest startLabelDetectionRequest,
AsyncHandler<StartLabelDetectionRequest,StartLabelDetectionResult> asyncHandler)
Starts asynchronous detection of labels in a stored video.
|
Future<StartPersonTrackingResult> |
startPersonTrackingAsync(StartPersonTrackingRequest startPersonTrackingRequest)
Starts the asynchronous tracking of a person's path in a stored video.
|
Future<StartPersonTrackingResult> |
startPersonTrackingAsync(StartPersonTrackingRequest startPersonTrackingRequest,
AsyncHandler<StartPersonTrackingRequest,StartPersonTrackingResult> asyncHandler)
Starts the asynchronous tracking of a person's path in a stored video.
|
Future<StartStreamProcessorResult> |
startStreamProcessorAsync(StartStreamProcessorRequest startStreamProcessorRequest)
Starts processing a stream processor.
|
Future<StartStreamProcessorResult> |
startStreamProcessorAsync(StartStreamProcessorRequest startStreamProcessorRequest,
AsyncHandler<StartStreamProcessorRequest,StartStreamProcessorResult> asyncHandler)
Starts processing a stream processor.
|
Future<StopStreamProcessorResult> |
stopStreamProcessorAsync(StopStreamProcessorRequest stopStreamProcessorRequest)
Stops a running stream processor that was created by CreateStreamProcessor.
|
Future<StopStreamProcessorResult> |
stopStreamProcessorAsync(StopStreamProcessorRequest stopStreamProcessorRequest,
AsyncHandler<StopStreamProcessorRequest,StopStreamProcessorResult> asyncHandler)
Stops a running stream processor that was created by CreateStreamProcessor.
|
compareFaces, createCollection, createStreamProcessor, deleteCollection, deleteFaces, deleteStreamProcessor, describeCollection, describeStreamProcessor, detectFaces, detectLabels, detectModerationLabels, detectText, getCachedResponseMetadata, getCelebrityInfo, getCelebrityRecognition, getContentModeration, getFaceDetection, getFaceSearch, getLabelDetection, getPersonTracking, indexFaces, listCollections, listFaces, listStreamProcessors, recognizeCelebrities, searchFaces, searchFacesByImage, setEndpoint, setRegion, shutdown, startCelebrityRecognition, startContentModeration, startFaceDetection, startFaceSearch, startLabelDetection, startPersonTracking, startStreamProcessor, stopStreamProcessorFuture<CompareFacesResult> compareFacesAsync(CompareFacesRequest compareFacesRequest)
Compares a face in the source input image with each of the 100 largest faces detected in the target input image.
If the source image contains multiple faces, the service detects the largest face and compares it with each face detected in the target image.
You pass the input and target images either as base64-encoded image bytes or as references to images in an Amazon S3 bucket. If you use the AWS CLI to call Amazon Rekognition operations, passing image bytes isn't supported. The image must be formatted as a PNG or JPEG file.
In response, the operation returns an array of face matches ordered by similarity score in descending order. For each face match, the response provides a bounding box of the face, facial landmarks, pose details (pitch, role, and yaw), quality (brightness and sharpness), and confidence value (indicating the level of confidence that the bounding box contains a face). The response also provides a similarity score, which indicates how closely the faces match.
By default, only faces with a similarity score of greater than or equal to 80% are returned in the response. You
can change this value by specifying the SimilarityThreshold parameter.
CompareFaces also returns an array of faces that don't match the source image. For each face, it
returns a bounding box, confidence value, landmarks, pose details, and quality. The response also returns
information about the face in the source image, including the bounding box of the face and confidence value.
If the image doesn't contain Exif metadata, CompareFaces returns orientation information for the
source and target images. Use these values to display the images with the correct image orientation.
If no faces are detected in the source or target images, CompareFaces returns an
InvalidParameterException error.
This is a stateless API operation. That is, data returned by this operation doesn't persist.
For an example, see Comparing Faces in Images in the Amazon Rekognition Developer Guide.
This operation requires permissions to perform the rekognition:CompareFaces action.
compareFacesRequest - Future<CompareFacesResult> compareFacesAsync(CompareFacesRequest compareFacesRequest, AsyncHandler<CompareFacesRequest,CompareFacesResult> asyncHandler)
Compares a face in the source input image with each of the 100 largest faces detected in the target input image.
If the source image contains multiple faces, the service detects the largest face and compares it with each face detected in the target image.
You pass the input and target images either as base64-encoded image bytes or as references to images in an Amazon S3 bucket. If you use the AWS CLI to call Amazon Rekognition operations, passing image bytes isn't supported. The image must be formatted as a PNG or JPEG file.
In response, the operation returns an array of face matches ordered by similarity score in descending order. For each face match, the response provides a bounding box of the face, facial landmarks, pose details (pitch, role, and yaw), quality (brightness and sharpness), and confidence value (indicating the level of confidence that the bounding box contains a face). The response also provides a similarity score, which indicates how closely the faces match.
By default, only faces with a similarity score of greater than or equal to 80% are returned in the response. You
can change this value by specifying the SimilarityThreshold parameter.
CompareFaces also returns an array of faces that don't match the source image. For each face, it
returns a bounding box, confidence value, landmarks, pose details, and quality. The response also returns
information about the face in the source image, including the bounding box of the face and confidence value.
If the image doesn't contain Exif metadata, CompareFaces returns orientation information for the
source and target images. Use these values to display the images with the correct image orientation.
If no faces are detected in the source or target images, CompareFaces returns an
InvalidParameterException error.
This is a stateless API operation. That is, data returned by this operation doesn't persist.
For an example, see Comparing Faces in Images in the Amazon Rekognition Developer Guide.
This operation requires permissions to perform the rekognition:CompareFaces action.
compareFacesRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<CreateCollectionResult> createCollectionAsync(CreateCollectionRequest createCollectionRequest)
Creates a collection in an AWS Region. You can add faces to the collection using the IndexFaces operation.
For example, you might create collections, one for each of your application users. A user can then index faces
using the IndexFaces operation and persist results in a specific collection. Then, a user can search
the collection for faces in the user-specific container.
When you create a collection, it is associated with the latest version of the face model version.
Collection names are case-sensitive.
This operation requires permissions to perform the rekognition:CreateCollection action.
createCollectionRequest - Future<CreateCollectionResult> createCollectionAsync(CreateCollectionRequest createCollectionRequest, AsyncHandler<CreateCollectionRequest,CreateCollectionResult> asyncHandler)
Creates a collection in an AWS Region. You can add faces to the collection using the IndexFaces operation.
For example, you might create collections, one for each of your application users. A user can then index faces
using the IndexFaces operation and persist results in a specific collection. Then, a user can search
the collection for faces in the user-specific container.
When you create a collection, it is associated with the latest version of the face model version.
Collection names are case-sensitive.
This operation requires permissions to perform the rekognition:CreateCollection action.
createCollectionRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<CreateStreamProcessorResult> createStreamProcessorAsync(CreateStreamProcessorRequest createStreamProcessorRequest)
Creates an Amazon Rekognition stream processor that you can use to detect and recognize faces in a streaming video.
Amazon Rekognition Video is a consumer of live video from Amazon Kinesis Video Streams. Amazon Rekognition Video sends analysis results to Amazon Kinesis Data Streams.
You provide as input a Kinesis video stream (Input) and a Kinesis data stream (Output)
stream. You also specify the face recognition criteria in Settings. For example, the collection
containing faces that you want to recognize. Use Name to assign an identifier for the stream
processor. You use Name to manage the stream processor. For example, you can start processing the
source video by calling StartStreamProcessor with the Name field.
After you have finished analyzing a streaming video, use StopStreamProcessor to stop processing. You can delete the stream processor by calling DeleteStreamProcessor.
createStreamProcessorRequest - Future<CreateStreamProcessorResult> createStreamProcessorAsync(CreateStreamProcessorRequest createStreamProcessorRequest, AsyncHandler<CreateStreamProcessorRequest,CreateStreamProcessorResult> asyncHandler)
Creates an Amazon Rekognition stream processor that you can use to detect and recognize faces in a streaming video.
Amazon Rekognition Video is a consumer of live video from Amazon Kinesis Video Streams. Amazon Rekognition Video sends analysis results to Amazon Kinesis Data Streams.
You provide as input a Kinesis video stream (Input) and a Kinesis data stream (Output)
stream. You also specify the face recognition criteria in Settings. For example, the collection
containing faces that you want to recognize. Use Name to assign an identifier for the stream
processor. You use Name to manage the stream processor. For example, you can start processing the
source video by calling StartStreamProcessor with the Name field.
After you have finished analyzing a streaming video, use StopStreamProcessor to stop processing. You can delete the stream processor by calling DeleteStreamProcessor.
createStreamProcessorRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DeleteCollectionResult> deleteCollectionAsync(DeleteCollectionRequest deleteCollectionRequest)
Deletes the specified collection. Note that this operation removes all faces in the collection. For an example, see delete-collection-procedure.
This operation requires permissions to perform the rekognition:DeleteCollection action.
deleteCollectionRequest - Future<DeleteCollectionResult> deleteCollectionAsync(DeleteCollectionRequest deleteCollectionRequest, AsyncHandler<DeleteCollectionRequest,DeleteCollectionResult> asyncHandler)
Deletes the specified collection. Note that this operation removes all faces in the collection. For an example, see delete-collection-procedure.
This operation requires permissions to perform the rekognition:DeleteCollection action.
deleteCollectionRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DeleteFacesResult> deleteFacesAsync(DeleteFacesRequest deleteFacesRequest)
Deletes faces from a collection. You specify a collection ID and an array of face IDs to remove from the collection.
This operation requires permissions to perform the rekognition:DeleteFaces action.
deleteFacesRequest - Future<DeleteFacesResult> deleteFacesAsync(DeleteFacesRequest deleteFacesRequest, AsyncHandler<DeleteFacesRequest,DeleteFacesResult> asyncHandler)
Deletes faces from a collection. You specify a collection ID and an array of face IDs to remove from the collection.
This operation requires permissions to perform the rekognition:DeleteFaces action.
deleteFacesRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DeleteStreamProcessorResult> deleteStreamProcessorAsync(DeleteStreamProcessorRequest deleteStreamProcessorRequest)
Deletes the stream processor identified by Name. You assign the value for Name when you
create the stream processor with CreateStreamProcessor. You might not be able to use the same name for a
stream processor for a few seconds after calling DeleteStreamProcessor.
deleteStreamProcessorRequest - Future<DeleteStreamProcessorResult> deleteStreamProcessorAsync(DeleteStreamProcessorRequest deleteStreamProcessorRequest, AsyncHandler<DeleteStreamProcessorRequest,DeleteStreamProcessorResult> asyncHandler)
Deletes the stream processor identified by Name. You assign the value for Name when you
create the stream processor with CreateStreamProcessor. You might not be able to use the same name for a
stream processor for a few seconds after calling DeleteStreamProcessor.
deleteStreamProcessorRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DescribeCollectionResult> describeCollectionAsync(DescribeCollectionRequest describeCollectionRequest)
Describes the specified collection. You can use DescribeCollection to get information, such as the
number of faces indexed into a collection and the version of the model used by the collection for face detection.
For more information, see Describing a Collection in the Amazon Rekognition Developer Guide.
describeCollectionRequest - Future<DescribeCollectionResult> describeCollectionAsync(DescribeCollectionRequest describeCollectionRequest, AsyncHandler<DescribeCollectionRequest,DescribeCollectionResult> asyncHandler)
Describes the specified collection. You can use DescribeCollection to get information, such as the
number of faces indexed into a collection and the version of the model used by the collection for face detection.
For more information, see Describing a Collection in the Amazon Rekognition Developer Guide.
describeCollectionRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DescribeStreamProcessorResult> describeStreamProcessorAsync(DescribeStreamProcessorRequest describeStreamProcessorRequest)
Provides information about a stream processor created by CreateStreamProcessor. You can get information about the input and output streams, the input parameters for the face recognition being performed, and the current status of the stream processor.
describeStreamProcessorRequest - Future<DescribeStreamProcessorResult> describeStreamProcessorAsync(DescribeStreamProcessorRequest describeStreamProcessorRequest, AsyncHandler<DescribeStreamProcessorRequest,DescribeStreamProcessorResult> asyncHandler)
Provides information about a stream processor created by CreateStreamProcessor. You can get information about the input and output streams, the input parameters for the face recognition being performed, and the current status of the stream processor.
describeStreamProcessorRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DetectFacesResult> detectFacesAsync(DetectFacesRequest detectFacesRequest)
Detects faces within an image that is provided as input.
DetectFaces detects the 100 largest faces in the image. For each face detected, the operation
returns face details. These details include a bounding box of the face, a confidence value (that the bounding box
contains a face), and a fixed set of attributes such as facial landmarks (for example, coordinates of eye and
mouth), gender, presence of beard, sunglasses, and so on.
The face-detection algorithm is most effective on frontal faces. For non-frontal or obscured faces, the algorithm might not detect the faces or might detect faces with lower confidence.
You pass the input image either as base64-encoded image bytes or as a reference to an image in an Amazon S3 bucket. If you use the to call Amazon Rekognition operations, passing image bytes is not supported. The image must be either a PNG or JPEG formatted file.
This is a stateless API operation. That is, the operation does not persist any data.
This operation requires permissions to perform the rekognition:DetectFaces action.
detectFacesRequest - Future<DetectFacesResult> detectFacesAsync(DetectFacesRequest detectFacesRequest, AsyncHandler<DetectFacesRequest,DetectFacesResult> asyncHandler)
Detects faces within an image that is provided as input.
DetectFaces detects the 100 largest faces in the image. For each face detected, the operation
returns face details. These details include a bounding box of the face, a confidence value (that the bounding box
contains a face), and a fixed set of attributes such as facial landmarks (for example, coordinates of eye and
mouth), gender, presence of beard, sunglasses, and so on.
The face-detection algorithm is most effective on frontal faces. For non-frontal or obscured faces, the algorithm might not detect the faces or might detect faces with lower confidence.
You pass the input image either as base64-encoded image bytes or as a reference to an image in an Amazon S3 bucket. If you use the to call Amazon Rekognition operations, passing image bytes is not supported. The image must be either a PNG or JPEG formatted file.
This is a stateless API operation. That is, the operation does not persist any data.
This operation requires permissions to perform the rekognition:DetectFaces action.
detectFacesRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DetectLabelsResult> detectLabelsAsync(DetectLabelsRequest detectLabelsRequest)
Detects instances of real-world entities within an image (JPEG or PNG) provided as input. This includes objects like flower, tree, and table; events like wedding, graduation, and birthday party; and concepts like landscape, evening, and nature.
For an example, see Analyzing Images Stored in an Amazon S3 Bucket in the Amazon Rekognition Developer Guide.
DetectLabels does not support the detection of activities. However, activity detection is supported
for label detection in videos. For more information, see StartLabelDetection in the Amazon Rekognition Developer
Guide.
You pass the input image as base64-encoded image bytes or as a reference to an image in an Amazon S3 bucket. If you use the AWS CLI to call Amazon Rekognition operations, passing image bytes is not supported. The image must be either a PNG or JPEG formatted file.
For each object, scene, and concept the API returns one or more labels. Each label provides the object name, and the level of confidence that the image contains the object. For example, suppose the input image has a lighthouse, the sea, and a rock. The response includes all three labels, one for each object.
{Name: lighthouse, Confidence: 98.4629}
{Name: rock,Confidence: 79.2097}
{Name: sea,Confidence: 75.061}
In the preceding example, the operation returns one label for each of the three objects. The operation can also return multiple labels for the same object in the image. For example, if the input image shows a flower (for example, a tulip), the operation might return the following three labels.
{Name: flower,Confidence: 99.0562}
{Name: plant,Confidence: 99.0562}
{Name: tulip,Confidence: 99.0562}
In this example, the detection algorithm more precisely identifies the flower as a tulip.
In response, the API returns an array of labels. In addition, the response also includes the orientation
correction. Optionally, you can specify MinConfidence to control the confidence threshold for the
labels returned. The default is 55%. You can also add the MaxLabels parameter to limit the number of
labels returned.
If the object detected is a person, the operation doesn't provide the same facial details that the DetectFaces operation provides.
DetectLabels returns bounding boxes for instances of common object labels in an array of
Instance objects. An Instance object contains a BoundingBox object, for the location
of the label on the image. It also includes the confidence by which the bounding box was detected.
DetectLabels also returns a hierarchical taxonomy of detected labels. For example, a detected car
might be assigned the label car. The label car has two parent labels: Vehicle (its parent)
and Transportation (its grandparent). The response returns the entire list of ancestors for a label. Each
ancestor is a unique label in the response. In the previous example, Car, Vehicle, and
Transportation are returned as unique labels in the response.
This is a stateless API operation. That is, the operation does not persist any data.
This operation requires permissions to perform the rekognition:DetectLabels action.
detectLabelsRequest - Future<DetectLabelsResult> detectLabelsAsync(DetectLabelsRequest detectLabelsRequest, AsyncHandler<DetectLabelsRequest,DetectLabelsResult> asyncHandler)
Detects instances of real-world entities within an image (JPEG or PNG) provided as input. This includes objects like flower, tree, and table; events like wedding, graduation, and birthday party; and concepts like landscape, evening, and nature.
For an example, see Analyzing Images Stored in an Amazon S3 Bucket in the Amazon Rekognition Developer Guide.
DetectLabels does not support the detection of activities. However, activity detection is supported
for label detection in videos. For more information, see StartLabelDetection in the Amazon Rekognition Developer
Guide.
You pass the input image as base64-encoded image bytes or as a reference to an image in an Amazon S3 bucket. If you use the AWS CLI to call Amazon Rekognition operations, passing image bytes is not supported. The image must be either a PNG or JPEG formatted file.
For each object, scene, and concept the API returns one or more labels. Each label provides the object name, and the level of confidence that the image contains the object. For example, suppose the input image has a lighthouse, the sea, and a rock. The response includes all three labels, one for each object.
{Name: lighthouse, Confidence: 98.4629}
{Name: rock,Confidence: 79.2097}
{Name: sea,Confidence: 75.061}
In the preceding example, the operation returns one label for each of the three objects. The operation can also return multiple labels for the same object in the image. For example, if the input image shows a flower (for example, a tulip), the operation might return the following three labels.
{Name: flower,Confidence: 99.0562}
{Name: plant,Confidence: 99.0562}
{Name: tulip,Confidence: 99.0562}
In this example, the detection algorithm more precisely identifies the flower as a tulip.
In response, the API returns an array of labels. In addition, the response also includes the orientation
correction. Optionally, you can specify MinConfidence to control the confidence threshold for the
labels returned. The default is 55%. You can also add the MaxLabels parameter to limit the number of
labels returned.
If the object detected is a person, the operation doesn't provide the same facial details that the DetectFaces operation provides.
DetectLabels returns bounding boxes for instances of common object labels in an array of
Instance objects. An Instance object contains a BoundingBox object, for the location
of the label on the image. It also includes the confidence by which the bounding box was detected.
DetectLabels also returns a hierarchical taxonomy of detected labels. For example, a detected car
might be assigned the label car. The label car has two parent labels: Vehicle (its parent)
and Transportation (its grandparent). The response returns the entire list of ancestors for a label. Each
ancestor is a unique label in the response. In the previous example, Car, Vehicle, and
Transportation are returned as unique labels in the response.
This is a stateless API operation. That is, the operation does not persist any data.
This operation requires permissions to perform the rekognition:DetectLabels action.
detectLabelsRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DetectModerationLabelsResult> detectModerationLabelsAsync(DetectModerationLabelsRequest detectModerationLabelsRequest)
Detects explicit or suggestive adult content in a specified JPEG or PNG format image. Use
DetectModerationLabels to moderate images depending on your requirements. For example, you might
want to filter images that contain nudity, but not images containing suggestive content.
To filter images, use the labels returned by DetectModerationLabels to determine which types of
content are appropriate.
For information about moderation labels, see Detecting Unsafe Content in the Amazon Rekognition Developer Guide.
You pass the input image either as base64-encoded image bytes or as a reference to an image in an Amazon S3 bucket. If you use the AWS CLI to call Amazon Rekognition operations, passing image bytes is not supported. The image must be either a PNG or JPEG formatted file.
detectModerationLabelsRequest - Future<DetectModerationLabelsResult> detectModerationLabelsAsync(DetectModerationLabelsRequest detectModerationLabelsRequest, AsyncHandler<DetectModerationLabelsRequest,DetectModerationLabelsResult> asyncHandler)
Detects explicit or suggestive adult content in a specified JPEG or PNG format image. Use
DetectModerationLabels to moderate images depending on your requirements. For example, you might
want to filter images that contain nudity, but not images containing suggestive content.
To filter images, use the labels returned by DetectModerationLabels to determine which types of
content are appropriate.
For information about moderation labels, see Detecting Unsafe Content in the Amazon Rekognition Developer Guide.
You pass the input image either as base64-encoded image bytes or as a reference to an image in an Amazon S3 bucket. If you use the AWS CLI to call Amazon Rekognition operations, passing image bytes is not supported. The image must be either a PNG or JPEG formatted file.
detectModerationLabelsRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<DetectTextResult> detectTextAsync(DetectTextRequest detectTextRequest)
Detects text in the input image and converts it into machine-readable text.
Pass the input image as base64-encoded image bytes or as a reference to an image in an Amazon S3 bucket. If you use the AWS CLI to call Amazon Rekognition operations, you must pass it as a reference to an image in an Amazon S3 bucket. For the AWS CLI, passing image bytes is not supported. The image must be either a .png or .jpeg formatted file.
The DetectText operation returns text in an array of TextDetection elements,
TextDetections. Each TextDetection element provides information about a single word or
line of text that was detected in the image.
A word is one or more ISO basic latin script characters that are not separated by spaces. DetectText
can detect up to 50 words in an image.
A line is a string of equally spaced words. A line isn't necessarily a complete sentence. For example, a driver's
license number is detected as a line. A line ends when there is no aligned text after it. Also, a line ends when
there is a large gap between words, relative to the length of the words. This means, depending on the gap between
words, Amazon Rekognition may detect multiple lines in text aligned in the same direction. Periods don't
represent the end of a line. If a sentence spans multiple lines, the DetectText operation returns
multiple lines.
To determine whether a TextDetection element is a line of text or a word, use the
TextDetection object Type field.
To be detected, text must be within +/- 90 degrees orientation of the horizontal axis.
For more information, see DetectText in the Amazon Rekognition Developer Guide.
detectTextRequest - Future<DetectTextResult> detectTextAsync(DetectTextRequest detectTextRequest, AsyncHandler<DetectTextRequest,DetectTextResult> asyncHandler)
Detects text in the input image and converts it into machine-readable text.
Pass the input image as base64-encoded image bytes or as a reference to an image in an Amazon S3 bucket. If you use the AWS CLI to call Amazon Rekognition operations, you must pass it as a reference to an image in an Amazon S3 bucket. For the AWS CLI, passing image bytes is not supported. The image must be either a .png or .jpeg formatted file.
The DetectText operation returns text in an array of TextDetection elements,
TextDetections. Each TextDetection element provides information about a single word or
line of text that was detected in the image.
A word is one or more ISO basic latin script characters that are not separated by spaces. DetectText
can detect up to 50 words in an image.
A line is a string of equally spaced words. A line isn't necessarily a complete sentence. For example, a driver's
license number is detected as a line. A line ends when there is no aligned text after it. Also, a line ends when
there is a large gap between words, relative to the length of the words. This means, depending on the gap between
words, Amazon Rekognition may detect multiple lines in text aligned in the same direction. Periods don't
represent the end of a line. If a sentence spans multiple lines, the DetectText operation returns
multiple lines.
To determine whether a TextDetection element is a line of text or a word, use the
TextDetection object Type field.
To be detected, text must be within +/- 90 degrees orientation of the horizontal axis.
For more information, see DetectText in the Amazon Rekognition Developer Guide.
detectTextRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<GetCelebrityInfoResult> getCelebrityInfoAsync(GetCelebrityInfoRequest getCelebrityInfoRequest)
Gets the name and additional information about a celebrity based on his or her Amazon Rekognition ID. The additional information is returned as an array of URLs. If there is no additional information about the celebrity, this list is empty.
For more information, see Recognizing Celebrities in an Image in the Amazon Rekognition Developer Guide.
This operation requires permissions to perform the rekognition:GetCelebrityInfo action.
getCelebrityInfoRequest - Future<GetCelebrityInfoResult> getCelebrityInfoAsync(GetCelebrityInfoRequest getCelebrityInfoRequest, AsyncHandler<GetCelebrityInfoRequest,GetCelebrityInfoResult> asyncHandler)
Gets the name and additional information about a celebrity based on his or her Amazon Rekognition ID. The additional information is returned as an array of URLs. If there is no additional information about the celebrity, this list is empty.
For more information, see Recognizing Celebrities in an Image in the Amazon Rekognition Developer Guide.
This operation requires permissions to perform the rekognition:GetCelebrityInfo action.
getCelebrityInfoRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<GetCelebrityRecognitionResult> getCelebrityRecognitionAsync(GetCelebrityRecognitionRequest getCelebrityRecognitionRequest)
Gets the celebrity recognition results for a Amazon Rekognition Video analysis started by StartCelebrityRecognition.
Celebrity recognition in a video is an asynchronous operation. Analysis is started by a call to
StartCelebrityRecognition which returns a job identifier (JobId). When the celebrity
recognition operation finishes, Amazon Rekognition Video publishes a completion status to the Amazon Simple
Notification Service topic registered in the initial call to StartCelebrityRecognition. To get the
results of the celebrity recognition analysis, first check that the status value published to the Amazon SNS
topic is SUCCEEDED. If so, call GetCelebrityDetection and pass the job identifier (
JobId) from the initial call to StartCelebrityDetection.
For more information, see Working With Stored Videos in the Amazon Rekognition Developer Guide.
GetCelebrityRecognition returns detected celebrities and the time(s) they are detected in an array (
Celebrities) of CelebrityRecognition objects. Each CelebrityRecognition contains
information about the celebrity in a CelebrityDetail object and the time, Timestamp, the
celebrity was detected.
GetCelebrityRecognition only returns the default facial attributes (BoundingBox,
Confidence, Landmarks, Pose, and Quality). The other facial
attributes listed in the Face object of the following response syntax are not returned. For more
information, see FaceDetail in the Amazon Rekognition Developer Guide.
By default, the Celebrities array is sorted by time (milliseconds from the start of the video). You
can also sort the array by celebrity by specifying the value ID in the SortBy input
parameter.
The CelebrityDetail object includes the celebrity identifer and additional information urls. If you
don't store the additional information urls, you can get them later by calling GetCelebrityInfo with the
celebrity identifer.
No information is returned for faces not recognized as celebrities.
Use MaxResults parameter to limit the number of labels returned. If there are more results than specified in
MaxResults, the value of NextToken in the operation response contains a pagination
token for getting the next set of results. To get the next page of results, call
GetCelebrityDetection and populate the NextToken request parameter with the token value
returned from the previous call to GetCelebrityRecognition.
getCelebrityRecognitionRequest - Future<GetCelebrityRecognitionResult> getCelebrityRecognitionAsync(GetCelebrityRecognitionRequest getCelebrityRecognitionRequest, AsyncHandler<GetCelebrityRecognitionRequest,GetCelebrityRecognitionResult> asyncHandler)
Gets the celebrity recognition results for a Amazon Rekognition Video analysis started by StartCelebrityRecognition.
Celebrity recognition in a video is an asynchronous operation. Analysis is started by a call to
StartCelebrityRecognition which returns a job identifier (JobId). When the celebrity
recognition operation finishes, Amazon Rekognition Video publishes a completion status to the Amazon Simple
Notification Service topic registered in the initial call to StartCelebrityRecognition. To get the
results of the celebrity recognition analysis, first check that the status value published to the Amazon SNS
topic is SUCCEEDED. If so, call GetCelebrityDetection and pass the job identifier (
JobId) from the initial call to StartCelebrityDetection.
For more information, see Working With Stored Videos in the Amazon Rekognition Developer Guide.
GetCelebrityRecognition returns detected celebrities and the time(s) they are detected in an array (
Celebrities) of CelebrityRecognition objects. Each CelebrityRecognition contains
information about the celebrity in a CelebrityDetail object and the time, Timestamp, the
celebrity was detected.
GetCelebrityRecognition only returns the default facial attributes (BoundingBox,
Confidence, Landmarks, Pose, and Quality). The other facial
attributes listed in the Face object of the following response syntax are not returned. For more
information, see FaceDetail in the Amazon Rekognition Developer Guide.
By default, the Celebrities array is sorted by time (milliseconds from the start of the video). You
can also sort the array by celebrity by specifying the value ID in the SortBy input
parameter.
The CelebrityDetail object includes the celebrity identifer and additional information urls. If you
don't store the additional information urls, you can get them later by calling GetCelebrityInfo with the
celebrity identifer.
No information is returned for faces not recognized as celebrities.
Use MaxResults parameter to limit the number of labels returned. If there are more results than specified in
MaxResults, the value of NextToken in the operation response contains a pagination
token for getting the next set of results. To get the next page of results, call
GetCelebrityDetection and populate the NextToken request parameter with the token value
returned from the previous call to GetCelebrityRecognition.
getCelebrityRecognitionRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<GetContentModerationResult> getContentModerationAsync(GetContentModerationRequest getContentModerationRequest)
Gets the content moderation analysis results for a Amazon Rekognition Video analysis started by StartContentModeration.
Content moderation analysis of a video is an asynchronous operation. You start analysis by calling
StartContentModeration which returns a job identifier (JobId). When analysis finishes, Amazon
Rekognition Video publishes a completion status to the Amazon Simple Notification Service topic registered in the
initial call to StartContentModeration. To get the results of the content moderation analysis, first
check that the status value published to the Amazon SNS topic is SUCCEEDED. If so, call
GetContentModeration and pass the job identifier (JobId) from the initial call to
StartContentModeration.
For more information, see Working with Stored Videos in the Amazon Rekognition Devlopers Guide.
GetContentModeration returns detected content moderation labels, and the time they are detected, in
an array, ModerationLabels, of ContentModerationDetection objects.
By default, the moderated labels are returned sorted by time, in milliseconds from the start of the video. You
can also sort them by moderated label by specifying NAME for the SortBy input
parameter.
Since video analysis can return a large number of results, use the MaxResults parameter to limit the
number of labels returned in a single call to GetContentModeration. If there are more results than
specified in MaxResults, the value of NextToken in the operation response contains a
pagination token for getting the next set of results. To get the next page of results, call
GetContentModeration and populate the NextToken request parameter with the value of
NextToken returned from the previous call to GetContentModeration.
For more information, see Detecting Unsafe Content in the Amazon Rekognition Developer Guide.
getContentModerationRequest - Future<GetContentModerationResult> getContentModerationAsync(GetContentModerationRequest getContentModerationRequest, AsyncHandler<GetContentModerationRequest,GetContentModerationResult> asyncHandler)
Gets the content moderation analysis results for a Amazon Rekognition Video analysis started by StartContentModeration.
Content moderation analysis of a video is an asynchronous operation. You start analysis by calling
StartContentModeration which returns a job identifier (JobId). When analysis finishes, Amazon
Rekognition Video publishes a completion status to the Amazon Simple Notification Service topic registered in the
initial call to StartContentModeration. To get the results of the content moderation analysis, first
check that the status value published to the Amazon SNS topic is SUCCEEDED. If so, call
GetContentModeration and pass the job identifier (JobId) from the initial call to
StartContentModeration.
For more information, see Working with Stored Videos in the Amazon Rekognition Devlopers Guide.
GetContentModeration returns detected content moderation labels, and the time they are detected, in
an array, ModerationLabels, of ContentModerationDetection objects.
By default, the moderated labels are returned sorted by time, in milliseconds from the start of the video. You
can also sort them by moderated label by specifying NAME for the SortBy input
parameter.
Since video analysis can return a large number of results, use the MaxResults parameter to limit the
number of labels returned in a single call to GetContentModeration. If there are more results than
specified in MaxResults, the value of NextToken in the operation response contains a
pagination token for getting the next set of results. To get the next page of results, call
GetContentModeration and populate the NextToken request parameter with the value of
NextToken returned from the previous call to GetContentModeration.
For more information, see Detecting Unsafe Content in the Amazon Rekognition Developer Guide.
getContentModerationRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<GetFaceDetectionResult> getFaceDetectionAsync(GetFaceDetectionRequest getFaceDetectionRequest)
Gets face detection results for a Amazon Rekognition Video analysis started by StartFaceDetection.
Face detection with Amazon Rekognition Video is an asynchronous operation. You start face detection by calling
StartFaceDetection which returns a job identifier (JobId). When the face detection operation
finishes, Amazon Rekognition Video publishes a completion status to the Amazon Simple Notification Service topic
registered in the initial call to StartFaceDetection. To get the results of the face detection
operation, first check that the status value published to the Amazon SNS topic is SUCCEEDED. If so,
call GetFaceDetection and pass the job identifier (JobId) from the initial call to
StartFaceDetection.
GetFaceDetection returns an array of detected faces (Faces) sorted by the time the
faces were detected.
Use MaxResults parameter to limit the number of labels returned. If there are more results than specified in
MaxResults, the value of NextToken in the operation response contains a pagination
token for getting the next set of results. To get the next page of results, call GetFaceDetection
and populate the NextToken request parameter with the token value returned from the previous call to
GetFaceDetection.
getFaceDetectionRequest - Future<GetFaceDetectionResult> getFaceDetectionAsync(GetFaceDetectionRequest getFaceDetectionRequest, AsyncHandler<GetFaceDetectionRequest,GetFaceDetectionResult> asyncHandler)
Gets face detection results for a Amazon Rekognition Video analysis started by StartFaceDetection.
Face detection with Amazon Rekognition Video is an asynchronous operation. You start face detection by calling
StartFaceDetection which returns a job identifier (JobId). When the face detection operation
finishes, Amazon Rekognition Video publishes a completion status to the Amazon Simple Notification Service topic
registered in the initial call to StartFaceDetection. To get the results of the face detection
operation, first check that the status value published to the Amazon SNS topic is SUCCEEDED. If so,
call GetFaceDetection and pass the job identifier (JobId) from the initial call to
StartFaceDetection.
GetFaceDetection returns an array of detected faces (Faces) sorted by the time the
faces were detected.
Use MaxResults parameter to limit the number of labels returned. If there are more results than specified in
MaxResults, the value of NextToken in the operation response contains a pagination
token for getting the next set of results. To get the next page of results, call GetFaceDetection
and populate the NextToken request parameter with the token value returned from the previous call to
GetFaceDetection.
getFaceDetectionRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<GetFaceSearchResult> getFaceSearchAsync(GetFaceSearchRequest getFaceSearchRequest)
Gets the face search results for Amazon Rekognition Video face search started by StartFaceSearch. The search returns faces in a collection that match the faces of persons detected in a video. It also includes the time(s) that faces are matched in the video.
Face search in a video is an asynchronous operation. You start face search by calling to StartFaceSearch
which returns a job identifier (JobId). When the search operation finishes, Amazon Rekognition Video
publishes a completion status to the Amazon Simple Notification Service topic registered in the initial call to
StartFaceSearch. To get the search results, first check that the status value published to the
Amazon SNS topic is SUCCEEDED. If so, call GetFaceSearch and pass the job identifier (
JobId) from the initial call to StartFaceSearch.
For more information, see Searching Faces in a Collection in the Amazon Rekognition Developer Guide.
The search results are retured in an array, Persons, of PersonMatch objects. Each
PersonMatch element contains details about the matching faces in the input collection, person
information (facial attributes, bounding boxes, and person identifer) for the matched person, and the time the
person was matched in the video.
GetFaceSearch only returns the default facial attributes (BoundingBox,
Confidence, Landmarks, Pose, and Quality). The other facial
attributes listed in the Face object of the following response syntax are not returned. For more
information, see FaceDetail in the Amazon Rekognition Developer Guide.
By default, the Persons array is sorted by the time, in milliseconds from the start of the video,
persons are matched. You can also sort by persons by specifying INDEX for the SORTBY
input parameter.
getFaceSearchRequest - Future<GetFaceSearchResult> getFaceSearchAsync(GetFaceSearchRequest getFaceSearchRequest, AsyncHandler<GetFaceSearchRequest,GetFaceSearchResult> asyncHandler)
Gets the face search results for Amazon Rekognition Video face search started by StartFaceSearch. The search returns faces in a collection that match the faces of persons detected in a video. It also includes the time(s) that faces are matched in the video.
Face search in a video is an asynchronous operation. You start face search by calling to StartFaceSearch
which returns a job identifier (JobId). When the search operation finishes, Amazon Rekognition Video
publishes a completion status to the Amazon Simple Notification Service topic registered in the initial call to
StartFaceSearch. To get the search results, first check that the status value published to the
Amazon SNS topic is SUCCEEDED. If so, call GetFaceSearch and pass the job identifier (
JobId) from the initial call to StartFaceSearch.
For more information, see Searching Faces in a Collection in the Amazon Rekognition Developer Guide.
The search results are retured in an array, Persons, of PersonMatch objects. Each
PersonMatch element contains details about the matching faces in the input collection, person
information (facial attributes, bounding boxes, and person identifer) for the matched person, and the time the
person was matched in the video.
GetFaceSearch only returns the default facial attributes (BoundingBox,
Confidence, Landmarks, Pose, and Quality). The other facial
attributes listed in the Face object of the following response syntax are not returned. For more
information, see FaceDetail in the Amazon Rekognition Developer Guide.
By default, the Persons array is sorted by the time, in milliseconds from the start of the video,
persons are matched. You can also sort by persons by specifying INDEX for the SORTBY
input parameter.
getFaceSearchRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<GetLabelDetectionResult> getLabelDetectionAsync(GetLabelDetectionRequest getLabelDetectionRequest)
Gets the label detection results of a Amazon Rekognition Video analysis started by StartLabelDetection.
The label detection operation is started by a call to StartLabelDetection which returns a job identifier (
JobId). When the label detection operation finishes, Amazon Rekognition publishes a completion
status to the Amazon Simple Notification Service topic registered in the initial call to
StartlabelDetection. To get the results of the label detection operation, first check that the
status value published to the Amazon SNS topic is SUCCEEDED. If so, call GetLabelDetection
and pass the job identifier (JobId) from the initial call to StartLabelDetection.
GetLabelDetection returns an array of detected labels (Labels) sorted by the time the
labels were detected. You can also sort by the label name by specifying NAME for the
SortBy input parameter.
The labels returned include the label name, the percentage confidence in the accuracy of the detected label, and the time the label was detected in the video.
The returned labels also include bounding box information for common objects, a hierarchical taxonomy of detected labels, and the version of the label model used for detection.
Use MaxResults parameter to limit the number of labels returned. If there are more results than specified in
MaxResults, the value of NextToken in the operation response contains a pagination
token for getting the next set of results. To get the next page of results, call GetlabelDetection
and populate the NextToken request parameter with the token value returned from the previous call to
GetLabelDetection.
getLabelDetectionRequest - Future<GetLabelDetectionResult> getLabelDetectionAsync(GetLabelDetectionRequest getLabelDetectionRequest, AsyncHandler<GetLabelDetectionRequest,GetLabelDetectionResult> asyncHandler)
Gets the label detection results of a Amazon Rekognition Video analysis started by StartLabelDetection.
The label detection operation is started by a call to StartLabelDetection which returns a job identifier (
JobId). When the label detection operation finishes, Amazon Rekognition publishes a completion
status to the Amazon Simple Notification Service topic registered in the initial call to
StartlabelDetection. To get the results of the label detection operation, first check that the
status value published to the Amazon SNS topic is SUCCEEDED. If so, call GetLabelDetection
and pass the job identifier (JobId) from the initial call to StartLabelDetection.
GetLabelDetection returns an array of detected labels (Labels) sorted by the time the
labels were detected. You can also sort by the label name by specifying NAME for the
SortBy input parameter.
The labels returned include the label name, the percentage confidence in the accuracy of the detected label, and the time the label was detected in the video.
The returned labels also include bounding box information for common objects, a hierarchical taxonomy of detected labels, and the version of the label model used for detection.
Use MaxResults parameter to limit the number of labels returned. If there are more results than specified in
MaxResults, the value of NextToken in the operation response contains a pagination
token for getting the next set of results. To get the next page of results, call GetlabelDetection
and populate the NextToken request parameter with the token value returned from the previous call to
GetLabelDetection.
getLabelDetectionRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<GetPersonTrackingResult> getPersonTrackingAsync(GetPersonTrackingRequest getPersonTrackingRequest)
Gets the path tracking results of a Amazon Rekognition Video analysis started by StartPersonTracking.
The person path tracking operation is started by a call to StartPersonTracking which returns a job
identifier (JobId). When the operation finishes, Amazon Rekognition Video publishes a completion
status to the Amazon Simple Notification Service topic registered in the initial call to
StartPersonTracking.
To get the results of the person path tracking operation, first check that the status value published to the
Amazon SNS topic is SUCCEEDED. If so, call GetPersonTracking and pass the job identifier (
JobId) from the initial call to StartPersonTracking.
GetPersonTracking returns an array, Persons, of tracked persons and the time(s) their
paths were tracked in the video.
GetPersonTracking only returns the default facial attributes (BoundingBox,
Confidence, Landmarks, Pose, and Quality). The other facial
attributes listed in the Face object of the following response syntax are not returned.
For more information, see FaceDetail in the Amazon Rekognition Developer Guide.
By default, the array is sorted by the time(s) a person's path is tracked in the video. You can sort by tracked
persons by specifying INDEX for the SortBy input parameter.
Use the MaxResults parameter to limit the number of items returned. If there are more results than
specified in MaxResults, the value of NextToken in the operation response contains a
pagination token for getting the next set of results. To get the next page of results, call
GetPersonTracking and populate the NextToken request parameter with the token value
returned from the previous call to GetPersonTracking.
getPersonTrackingRequest - Future<GetPersonTrackingResult> getPersonTrackingAsync(GetPersonTrackingRequest getPersonTrackingRequest, AsyncHandler<GetPersonTrackingRequest,GetPersonTrackingResult> asyncHandler)
Gets the path tracking results of a Amazon Rekognition Video analysis started by StartPersonTracking.
The person path tracking operation is started by a call to StartPersonTracking which returns a job
identifier (JobId). When the operation finishes, Amazon Rekognition Video publishes a completion
status to the Amazon Simple Notification Service topic registered in the initial call to
StartPersonTracking.
To get the results of the person path tracking operation, first check that the status value published to the
Amazon SNS topic is SUCCEEDED. If so, call GetPersonTracking and pass the job identifier (
JobId) from the initial call to StartPersonTracking.
GetPersonTracking returns an array, Persons, of tracked persons and the time(s) their
paths were tracked in the video.
GetPersonTracking only returns the default facial attributes (BoundingBox,
Confidence, Landmarks, Pose, and Quality). The other facial
attributes listed in the Face object of the following response syntax are not returned.
For more information, see FaceDetail in the Amazon Rekognition Developer Guide.
By default, the array is sorted by the time(s) a person's path is tracked in the video. You can sort by tracked
persons by specifying INDEX for the SortBy input parameter.
Use the MaxResults parameter to limit the number of items returned. If there are more results than
specified in MaxResults, the value of NextToken in the operation response contains a
pagination token for getting the next set of results. To get the next page of results, call
GetPersonTracking and populate the NextToken request parameter with the token value
returned from the previous call to GetPersonTracking.
getPersonTrackingRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<IndexFacesResult> indexFacesAsync(IndexFacesRequest indexFacesRequest)
Detects faces in the input image and adds them to the specified collection.
Amazon Rekognition doesn't save the actual faces that are detected. Instead, the underlying detection algorithm first detects the faces in the input image. For each face, the algorithm extracts facial features into a feature vector, and stores it in the backend database. Amazon Rekognition uses feature vectors when it performs face match and search operations using the SearchFaces and SearchFacesByImage operations.
For more information, see Adding Faces to a Collection in the Amazon Rekognition Developer Guide.
To get the number of faces in a collection, call DescribeCollection.
If you're using version 1.0 of the face detection model, IndexFaces indexes the 15 largest faces in
the input image. Later versions of the face detection model index the 100 largest faces in the input image.
If you're using version 4 or later of the face model, image orientation information is not returned in the
OrientationCorrection field.
To determine which version of the model you're using, call DescribeCollection and supply the collection
ID. You can also get the model version from the value of FaceModelVersion in the response from
IndexFaces
For more information, see Model Versioning in the Amazon Rekognition Developer Guide.
If you provide the optional ExternalImageID for the input image you provided, Amazon Rekognition
associates this ID with all faces that it detects. When you call the ListFaces operation, the response
returns the external ID. You can use this external image ID to create a client-side index to associate the faces
with each image. You can then use the index to find all faces in an image.
You can specify the maximum number of faces to index with the MaxFaces input parameter. This is
useful when you want to index the largest faces in an image and don't want to index smaller faces, such as those
belonging to people standing in the background.
The QualityFilter input parameter allows you to filter out detected faces that don’t meet the
required quality bar chosen by Amazon Rekognition. The quality bar is based on a variety of common use cases. By
default, IndexFaces filters detected faces. You can also explicitly filter detected faces by
specifying AUTO for the value of QualityFilter. If you do not want to filter detected
faces, specify NONE.
To use quality filtering, you need a collection associated with version 3 of the face model. To get the version of the face model associated with a collection, call DescribeCollection.
Information about faces detected in an image, but not indexed, is returned in an array of UnindexedFace
objects, UnindexedFaces. Faces aren't indexed for reasons such as:
The number of faces detected exceeds the value of the MaxFaces request parameter.
The face is too small compared to the image dimensions.
The face is too blurry.
The image is too dark.
The face has an extreme pose.
In response, the IndexFaces operation returns an array of metadata for all detected faces,
FaceRecords. This includes:
The bounding box, BoundingBox, of the detected face.
A confidence value, Confidence, which indicates the confidence that the bounding box contains a
face.
A face ID, FaceId, assigned by the service for each face that's detected and stored.
An image ID, ImageId, assigned by the service for the input image.
If you request all facial attributes (by using the detectionAttributes parameter), Amazon
Rekognition returns detailed facial attributes, such as facial landmarks (for example, location of eye and mouth)
and other facial attributes like gender. If you provide the same image, specify the same collection, and use the
same external ID in the IndexFaces operation, Amazon Rekognition doesn't save duplicate face
metadata.
The input image is passed either as base64-encoded image bytes, or as a reference to an image in an Amazon S3 bucket. If you use the AWS CLI to call Amazon Rekognition operations, passing image bytes isn't supported. The image must be formatted as a PNG or JPEG file.
This operation requires permissions to perform the rekognition:IndexFaces action.
indexFacesRequest - Future<IndexFacesResult> indexFacesAsync(IndexFacesRequest indexFacesRequest, AsyncHandler<IndexFacesRequest,IndexFacesResult> asyncHandler)
Detects faces in the input image and adds them to the specified collection.
Amazon Rekognition doesn't save the actual faces that are detected. Instead, the underlying detection algorithm first detects the faces in the input image. For each face, the algorithm extracts facial features into a feature vector, and stores it in the backend database. Amazon Rekognition uses feature vectors when it performs face match and search operations using the SearchFaces and SearchFacesByImage operations.
For more information, see Adding Faces to a Collection in the Amazon Rekognition Developer Guide.
To get the number of faces in a collection, call DescribeCollection.
If you're using version 1.0 of the face detection model, IndexFaces indexes the 15 largest faces in
the input image. Later versions of the face detection model index the 100 largest faces in the input image.
If you're using version 4 or later of the face model, image orientation information is not returned in the
OrientationCorrection field.
To determine which version of the model you're using, call DescribeCollection and supply the collection
ID. You can also get the model version from the value of FaceModelVersion in the response from
IndexFaces
For more information, see Model Versioning in the Amazon Rekognition Developer Guide.
If you provide the optional ExternalImageID for the input image you provided, Amazon Rekognition
associates this ID with all faces that it detects. When you call the ListFaces operation, the response
returns the external ID. You can use this external image ID to create a client-side index to associate the faces
with each image. You can then use the index to find all faces in an image.
You can specify the maximum number of faces to index with the MaxFaces input parameter. This is
useful when you want to index the largest faces in an image and don't want to index smaller faces, such as those
belonging to people standing in the background.
The QualityFilter input parameter allows you to filter out detected faces that don’t meet the
required quality bar chosen by Amazon Rekognition. The quality bar is based on a variety of common use cases. By
default, IndexFaces filters detected faces. You can also explicitly filter detected faces by
specifying AUTO for the value of QualityFilter. If you do not want to filter detected
faces, specify NONE.
To use quality filtering, you need a collection associated with version 3 of the face model. To get the version of the face model associated with a collection, call DescribeCollection.
Information about faces detected in an image, but not indexed, is returned in an array of UnindexedFace
objects, UnindexedFaces. Faces aren't indexed for reasons such as:
The number of faces detected exceeds the value of the MaxFaces request parameter.
The face is too small compared to the image dimensions.
The face is too blurry.
The image is too dark.
The face has an extreme pose.
In response, the IndexFaces operation returns an array of metadata for all detected faces,
FaceRecords. This includes:
The bounding box, BoundingBox, of the detected face.
A confidence value, Confidence, which indicates the confidence that the bounding box contains a
face.
A face ID, FaceId, assigned by the service for each face that's detected and stored.
An image ID, ImageId, assigned by the service for the input image.
If you request all facial attributes (by using the detectionAttributes parameter), Amazon
Rekognition returns detailed facial attributes, such as facial landmarks (for example, location of eye and mouth)
and other facial attributes like gender. If you provide the same image, specify the same collection, and use the
same external ID in the IndexFaces operation, Amazon Rekognition doesn't save duplicate face
metadata.
The input image is passed either as base64-encoded image bytes, or as a reference to an image in an Amazon S3 bucket. If you use the AWS CLI to call Amazon Rekognition operations, passing image bytes isn't supported. The image must be formatted as a PNG or JPEG file.
This operation requires permissions to perform the rekognition:IndexFaces action.
indexFacesRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<ListCollectionsResult> listCollectionsAsync(ListCollectionsRequest listCollectionsRequest)
Returns list of collection IDs in your account. If the result is truncated, the response also provides a
NextToken that you can use in the subsequent request to fetch the next set of collection IDs.
For an example, see Listing Collections in the Amazon Rekognition Developer Guide.
This operation requires permissions to perform the rekognition:ListCollections action.
listCollectionsRequest - Future<ListCollectionsResult> listCollectionsAsync(ListCollectionsRequest listCollectionsRequest, AsyncHandler<ListCollectionsRequest,ListCollectionsResult> asyncHandler)
Returns list of collection IDs in your account. If the result is truncated, the response also provides a
NextToken that you can use in the subsequent request to fetch the next set of collection IDs.
For an example, see Listing Collections in the Amazon Rekognition Developer Guide.
This operation requires permissions to perform the rekognition:ListCollections action.
listCollectionsRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<ListFacesResult> listFacesAsync(ListFacesRequest listFacesRequest)
Returns metadata for faces in the specified collection. This metadata includes information such as the bounding box coordinates, the confidence (that the bounding box contains a face), and face ID. For an example, see Listing Faces in a Collection in the Amazon Rekognition Developer Guide.
This operation requires permissions to perform the rekognition:ListFaces action.
listFacesRequest - Future<ListFacesResult> listFacesAsync(ListFacesRequest listFacesRequest, AsyncHandler<ListFacesRequest,ListFacesResult> asyncHandler)
Returns metadata for faces in the specified collection. This metadata includes information such as the bounding box coordinates, the confidence (that the bounding box contains a face), and face ID. For an example, see Listing Faces in a Collection in the Amazon Rekognition Developer Guide.
This operation requires permissions to perform the rekognition:ListFaces action.
listFacesRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<ListStreamProcessorsResult> listStreamProcessorsAsync(ListStreamProcessorsRequest listStreamProcessorsRequest)
Gets a list of stream processors that you have created with CreateStreamProcessor.
listStreamProcessorsRequest - Future<ListStreamProcessorsResult> listStreamProcessorsAsync(ListStreamProcessorsRequest listStreamProcessorsRequest, AsyncHandler<ListStreamProcessorsRequest,ListStreamProcessorsResult> asyncHandler)
Gets a list of stream processors that you have created with CreateStreamProcessor.
listStreamProcessorsRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<RecognizeCelebritiesResult> recognizeCelebritiesAsync(RecognizeCelebritiesRequest recognizeCelebritiesRequest)
Returns an array of celebrities recognized in the input image. For more information, see Recognizing Celebrities in the Amazon Rekognition Developer Guide.
RecognizeCelebrities returns the 100 largest faces in the image. It lists recognized celebrities in
the CelebrityFaces array and unrecognized faces in the UnrecognizedFaces array.
RecognizeCelebrities doesn't return celebrities whose faces aren't among the largest 100 faces in
the image.
For each celebrity recognized, RecognizeCelebrities returns a Celebrity object. The
Celebrity object contains the celebrity name, ID, URL links to additional information, match
confidence, and a ComparedFace object that you can use to locate the celebrity's face on the image.
Amazon Rekognition doesn't retain information about which images a celebrity has been recognized in. Your
application must store this information and use the Celebrity ID property as a unique identifier for
the celebrity. If you don't store the celebrity name or additional information URLs returned by
RecognizeCelebrities, you will need the ID to identify the celebrity in a call to the
GetCelebrityInfo operation.
You pass the input image either as base64-encoded image bytes or as a reference to an image in an Amazon S3 bucket. If you use the AWS CLI to call Amazon Rekognition operations, passing image bytes is not supported. The image must be either a PNG or JPEG formatted file.
For an example, see Recognizing Celebrities in an Image in the Amazon Rekognition Developer Guide.
This operation requires permissions to perform the rekognition:RecognizeCelebrities operation.
recognizeCelebritiesRequest - Future<RecognizeCelebritiesResult> recognizeCelebritiesAsync(RecognizeCelebritiesRequest recognizeCelebritiesRequest, AsyncHandler<RecognizeCelebritiesRequest,RecognizeCelebritiesResult> asyncHandler)
Returns an array of celebrities recognized in the input image. For more information, see Recognizing Celebrities in the Amazon Rekognition Developer Guide.
RecognizeCelebrities returns the 100 largest faces in the image. It lists recognized celebrities in
the CelebrityFaces array and unrecognized faces in the UnrecognizedFaces array.
RecognizeCelebrities doesn't return celebrities whose faces aren't among the largest 100 faces in
the image.
For each celebrity recognized, RecognizeCelebrities returns a Celebrity object. The
Celebrity object contains the celebrity name, ID, URL links to additional information, match
confidence, and a ComparedFace object that you can use to locate the celebrity's face on the image.
Amazon Rekognition doesn't retain information about which images a celebrity has been recognized in. Your
application must store this information and use the Celebrity ID property as a unique identifier for
the celebrity. If you don't store the celebrity name or additional information URLs returned by
RecognizeCelebrities, you will need the ID to identify the celebrity in a call to the
GetCelebrityInfo operation.
You pass the input image either as base64-encoded image bytes or as a reference to an image in an Amazon S3 bucket. If you use the AWS CLI to call Amazon Rekognition operations, passing image bytes is not supported. The image must be either a PNG or JPEG formatted file.
For an example, see Recognizing Celebrities in an Image in the Amazon Rekognition Developer Guide.
This operation requires permissions to perform the rekognition:RecognizeCelebrities operation.
recognizeCelebritiesRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<SearchFacesResult> searchFacesAsync(SearchFacesRequest searchFacesRequest)
For a given input face ID, searches for matching faces in the collection the face belongs to. You get a face ID when you add a face to the collection using the IndexFaces operation. The operation compares the features of the input face with faces in the specified collection.
You can also search faces without indexing faces by using the SearchFacesByImage operation.
The operation response returns an array of faces that match, ordered by similarity score with the highest
similarity first. More specifically, it is an array of metadata for each face match that is found. Along with the
metadata, the response also includes a confidence value for each face match, indicating the
confidence that the specific face matches the input face.
For an example, see Searching for a Face Using Its Face ID in the Amazon Rekognition Developer Guide.
This operation requires permissions to perform the rekognition:SearchFaces action.
searchFacesRequest - Future<SearchFacesResult> searchFacesAsync(SearchFacesRequest searchFacesRequest, AsyncHandler<SearchFacesRequest,SearchFacesResult> asyncHandler)
For a given input face ID, searches for matching faces in the collection the face belongs to. You get a face ID when you add a face to the collection using the IndexFaces operation. The operation compares the features of the input face with faces in the specified collection.
You can also search faces without indexing faces by using the SearchFacesByImage operation.
The operation response returns an array of faces that match, ordered by similarity score with the highest
similarity first. More specifically, it is an array of metadata for each face match that is found. Along with the
metadata, the response also includes a confidence value for each face match, indicating the
confidence that the specific face matches the input face.
For an example, see Searching for a Face Using Its Face ID in the Amazon Rekognition Developer Guide.
This operation requires permissions to perform the rekognition:SearchFaces action.
searchFacesRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<SearchFacesByImageResult> searchFacesByImageAsync(SearchFacesByImageRequest searchFacesByImageRequest)
For a given input image, first detects the largest face in the image, and then searches the specified collection for matching faces. The operation compares the features of the input face with faces in the specified collection.
To search for all faces in an input image, you might first call the IndexFaces operation, and then use the face IDs returned in subsequent calls to the SearchFaces operation.
You can also call the DetectFaces operation and use the bounding boxes in the response to make face
crops, which then you can pass in to the SearchFacesByImage operation.
You pass the input image either as base64-encoded image bytes or as a reference to an image in an Amazon S3 bucket. If you use the AWS CLI to call Amazon Rekognition operations, passing image bytes is not supported. The image must be either a PNG or JPEG formatted file.
The response returns an array of faces that match, ordered by similarity score with the highest similarity first.
More specifically, it is an array of metadata for each face match found. Along with the metadata, the response
also includes a similarity indicating how similar the face is to the input face. In the response,
the operation also returns the bounding box (and a confidence level that the bounding box contains a face) of the
face that Amazon Rekognition used for the input image.
For an example, Searching for a Face Using an Image in the Amazon Rekognition Developer Guide.
This operation requires permissions to perform the rekognition:SearchFacesByImage action.
searchFacesByImageRequest - Future<SearchFacesByImageResult> searchFacesByImageAsync(SearchFacesByImageRequest searchFacesByImageRequest, AsyncHandler<SearchFacesByImageRequest,SearchFacesByImageResult> asyncHandler)
For a given input image, first detects the largest face in the image, and then searches the specified collection for matching faces. The operation compares the features of the input face with faces in the specified collection.
To search for all faces in an input image, you might first call the IndexFaces operation, and then use the face IDs returned in subsequent calls to the SearchFaces operation.
You can also call the DetectFaces operation and use the bounding boxes in the response to make face
crops, which then you can pass in to the SearchFacesByImage operation.
You pass the input image either as base64-encoded image bytes or as a reference to an image in an Amazon S3 bucket. If you use the AWS CLI to call Amazon Rekognition operations, passing image bytes is not supported. The image must be either a PNG or JPEG formatted file.
The response returns an array of faces that match, ordered by similarity score with the highest similarity first.
More specifically, it is an array of metadata for each face match found. Along with the metadata, the response
also includes a similarity indicating how similar the face is to the input face. In the response,
the operation also returns the bounding box (and a confidence level that the bounding box contains a face) of the
face that Amazon Rekognition used for the input image.
For an example, Searching for a Face Using an Image in the Amazon Rekognition Developer Guide.
This operation requires permissions to perform the rekognition:SearchFacesByImage action.
searchFacesByImageRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<StartCelebrityRecognitionResult> startCelebrityRecognitionAsync(StartCelebrityRecognitionRequest startCelebrityRecognitionRequest)
Starts asynchronous recognition of celebrities in a stored video.
Amazon Rekognition Video can detect celebrities in a video must be stored in an Amazon S3 bucket. Use
Video to specify the bucket name and the filename of the video. StartCelebrityRecognition
returns a job identifier (JobId) which you use to get the results of the analysis. When celebrity
recognition analysis is finished, Amazon Rekognition Video publishes a completion status to the Amazon Simple
Notification Service topic that you specify in NotificationChannel. To get the results of the
celebrity recognition analysis, first check that the status value published to the Amazon SNS topic is
SUCCEEDED. If so, call GetCelebrityRecognition and pass the job identifier (
JobId) from the initial call to StartCelebrityRecognition.
For more information, see Recognizing Celebrities in the Amazon Rekognition Developer Guide.
startCelebrityRecognitionRequest - Future<StartCelebrityRecognitionResult> startCelebrityRecognitionAsync(StartCelebrityRecognitionRequest startCelebrityRecognitionRequest, AsyncHandler<StartCelebrityRecognitionRequest,StartCelebrityRecognitionResult> asyncHandler)
Starts asynchronous recognition of celebrities in a stored video.
Amazon Rekognition Video can detect celebrities in a video must be stored in an Amazon S3 bucket. Use
Video to specify the bucket name and the filename of the video. StartCelebrityRecognition
returns a job identifier (JobId) which you use to get the results of the analysis. When celebrity
recognition analysis is finished, Amazon Rekognition Video publishes a completion status to the Amazon Simple
Notification Service topic that you specify in NotificationChannel. To get the results of the
celebrity recognition analysis, first check that the status value published to the Amazon SNS topic is
SUCCEEDED. If so, call GetCelebrityRecognition and pass the job identifier (
JobId) from the initial call to StartCelebrityRecognition.
For more information, see Recognizing Celebrities in the Amazon Rekognition Developer Guide.
startCelebrityRecognitionRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<StartContentModerationResult> startContentModerationAsync(StartContentModerationRequest startContentModerationRequest)
Starts asynchronous detection of explicit or suggestive adult content in a stored video.
Amazon Rekognition Video can moderate content in a video stored in an Amazon S3 bucket. Use Video to
specify the bucket name and the filename of the video. StartContentModeration returns a job
identifier (JobId) which you use to get the results of the analysis. When content moderation
analysis is finished, Amazon Rekognition Video publishes a completion status to the Amazon Simple Notification
Service topic that you specify in NotificationChannel.
To get the results of the content moderation analysis, first check that the status value published to the Amazon
SNS topic is SUCCEEDED. If so, call GetContentModeration and pass the job identifier (
JobId) from the initial call to StartContentModeration.
For more information, see Detecting Unsafe Content in the Amazon Rekognition Developer Guide.
startContentModerationRequest - Future<StartContentModerationResult> startContentModerationAsync(StartContentModerationRequest startContentModerationRequest, AsyncHandler<StartContentModerationRequest,StartContentModerationResult> asyncHandler)
Starts asynchronous detection of explicit or suggestive adult content in a stored video.
Amazon Rekognition Video can moderate content in a video stored in an Amazon S3 bucket. Use Video to
specify the bucket name and the filename of the video. StartContentModeration returns a job
identifier (JobId) which you use to get the results of the analysis. When content moderation
analysis is finished, Amazon Rekognition Video publishes a completion status to the Amazon Simple Notification
Service topic that you specify in NotificationChannel.
To get the results of the content moderation analysis, first check that the status value published to the Amazon
SNS topic is SUCCEEDED. If so, call GetContentModeration and pass the job identifier (
JobId) from the initial call to StartContentModeration.
For more information, see Detecting Unsafe Content in the Amazon Rekognition Developer Guide.
startContentModerationRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<StartFaceDetectionResult> startFaceDetectionAsync(StartFaceDetectionRequest startFaceDetectionRequest)
Starts asynchronous detection of faces in a stored video.
Amazon Rekognition Video can detect faces in a video stored in an Amazon S3 bucket. Use Video to specify
the bucket name and the filename of the video. StartFaceDetection returns a job identifier (
JobId) that you use to get the results of the operation. When face detection is finished, Amazon
Rekognition Video publishes a completion status to the Amazon Simple Notification Service topic that you specify
in NotificationChannel. To get the results of the face detection operation, first check that the
status value published to the Amazon SNS topic is SUCCEEDED. If so, call GetFaceDetection and
pass the job identifier (JobId) from the initial call to StartFaceDetection.
For more information, see Detecting Faces in a Stored Video in the Amazon Rekognition Developer Guide.
startFaceDetectionRequest - Future<StartFaceDetectionResult> startFaceDetectionAsync(StartFaceDetectionRequest startFaceDetectionRequest, AsyncHandler<StartFaceDetectionRequest,StartFaceDetectionResult> asyncHandler)
Starts asynchronous detection of faces in a stored video.
Amazon Rekognition Video can detect faces in a video stored in an Amazon S3 bucket. Use Video to specify
the bucket name and the filename of the video. StartFaceDetection returns a job identifier (
JobId) that you use to get the results of the operation. When face detection is finished, Amazon
Rekognition Video publishes a completion status to the Amazon Simple Notification Service topic that you specify
in NotificationChannel. To get the results of the face detection operation, first check that the
status value published to the Amazon SNS topic is SUCCEEDED. If so, call GetFaceDetection and
pass the job identifier (JobId) from the initial call to StartFaceDetection.
For more information, see Detecting Faces in a Stored Video in the Amazon Rekognition Developer Guide.
startFaceDetectionRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<StartFaceSearchResult> startFaceSearchAsync(StartFaceSearchRequest startFaceSearchRequest)
Starts the asynchronous search for faces in a collection that match the faces of persons detected in a stored video.
The video must be stored in an Amazon S3 bucket. Use Video to specify the bucket name and the filename of
the video. StartFaceSearch returns a job identifier (JobId) which you use to get the
search results once the search has completed. When searching is finished, Amazon Rekognition Video publishes a
completion status to the Amazon Simple Notification Service topic that you specify in
NotificationChannel. To get the search results, first check that the status value published to the
Amazon SNS topic is SUCCEEDED. If so, call GetFaceSearch and pass the job identifier (
JobId) from the initial call to StartFaceSearch. For more information, see
procedure-person-search-videos.
startFaceSearchRequest - Future<StartFaceSearchResult> startFaceSearchAsync(StartFaceSearchRequest startFaceSearchRequest, AsyncHandler<StartFaceSearchRequest,StartFaceSearchResult> asyncHandler)
Starts the asynchronous search for faces in a collection that match the faces of persons detected in a stored video.
The video must be stored in an Amazon S3 bucket. Use Video to specify the bucket name and the filename of
the video. StartFaceSearch returns a job identifier (JobId) which you use to get the
search results once the search has completed. When searching is finished, Amazon Rekognition Video publishes a
completion status to the Amazon Simple Notification Service topic that you specify in
NotificationChannel. To get the search results, first check that the status value published to the
Amazon SNS topic is SUCCEEDED. If so, call GetFaceSearch and pass the job identifier (
JobId) from the initial call to StartFaceSearch. For more information, see
procedure-person-search-videos.
startFaceSearchRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<StartLabelDetectionResult> startLabelDetectionAsync(StartLabelDetectionRequest startLabelDetectionRequest)
Starts asynchronous detection of labels in a stored video.
Amazon Rekognition Video can detect labels in a video. Labels are instances of real-world entities. This includes objects like flower, tree, and table; events like wedding, graduation, and birthday party; concepts like landscape, evening, and nature; and activities like a person getting out of a car or a person skiing.
The video must be stored in an Amazon S3 bucket. Use Video to specify the bucket name and the filename of
the video. StartLabelDetection returns a job identifier (JobId) which you use to get
the results of the operation. When label detection is finished, Amazon Rekognition Video publishes a completion
status to the Amazon Simple Notification Service topic that you specify in NotificationChannel.
To get the results of the label detection operation, first check that the status value published to the Amazon
SNS topic is SUCCEEDED. If so, call GetLabelDetection and pass the job identifier (
JobId) from the initial call to StartLabelDetection.
startLabelDetectionRequest - Future<StartLabelDetectionResult> startLabelDetectionAsync(StartLabelDetectionRequest startLabelDetectionRequest, AsyncHandler<StartLabelDetectionRequest,StartLabelDetectionResult> asyncHandler)
Starts asynchronous detection of labels in a stored video.
Amazon Rekognition Video can detect labels in a video. Labels are instances of real-world entities. This includes objects like flower, tree, and table; events like wedding, graduation, and birthday party; concepts like landscape, evening, and nature; and activities like a person getting out of a car or a person skiing.
The video must be stored in an Amazon S3 bucket. Use Video to specify the bucket name and the filename of
the video. StartLabelDetection returns a job identifier (JobId) which you use to get
the results of the operation. When label detection is finished, Amazon Rekognition Video publishes a completion
status to the Amazon Simple Notification Service topic that you specify in NotificationChannel.
To get the results of the label detection operation, first check that the status value published to the Amazon
SNS topic is SUCCEEDED. If so, call GetLabelDetection and pass the job identifier (
JobId) from the initial call to StartLabelDetection.
startLabelDetectionRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<StartPersonTrackingResult> startPersonTrackingAsync(StartPersonTrackingRequest startPersonTrackingRequest)
Starts the asynchronous tracking of a person's path in a stored video.
Amazon Rekognition Video can track the path of people in a video stored in an Amazon S3 bucket. Use Video
to specify the bucket name and the filename of the video. StartPersonTracking returns a job
identifier (JobId) which you use to get the results of the operation. When label detection is
finished, Amazon Rekognition publishes a completion status to the Amazon Simple Notification Service topic that
you specify in NotificationChannel.
To get the results of the person detection operation, first check that the status value published to the Amazon
SNS topic is SUCCEEDED. If so, call GetPersonTracking and pass the job identifier (
JobId) from the initial call to StartPersonTracking.
startPersonTrackingRequest - Future<StartPersonTrackingResult> startPersonTrackingAsync(StartPersonTrackingRequest startPersonTrackingRequest, AsyncHandler<StartPersonTrackingRequest,StartPersonTrackingResult> asyncHandler)
Starts the asynchronous tracking of a person's path in a stored video.
Amazon Rekognition Video can track the path of people in a video stored in an Amazon S3 bucket. Use Video
to specify the bucket name and the filename of the video. StartPersonTracking returns a job
identifier (JobId) which you use to get the results of the operation. When label detection is
finished, Amazon Rekognition publishes a completion status to the Amazon Simple Notification Service topic that
you specify in NotificationChannel.
To get the results of the person detection operation, first check that the status value published to the Amazon
SNS topic is SUCCEEDED. If so, call GetPersonTracking and pass the job identifier (
JobId) from the initial call to StartPersonTracking.
startPersonTrackingRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<StartStreamProcessorResult> startStreamProcessorAsync(StartStreamProcessorRequest startStreamProcessorRequest)
Starts processing a stream processor. You create a stream processor by calling CreateStreamProcessor. To
tell StartStreamProcessor which stream processor to start, use the value of the Name
field specified in the call to CreateStreamProcessor.
startStreamProcessorRequest - Future<StartStreamProcessorResult> startStreamProcessorAsync(StartStreamProcessorRequest startStreamProcessorRequest, AsyncHandler<StartStreamProcessorRequest,StartStreamProcessorResult> asyncHandler)
Starts processing a stream processor. You create a stream processor by calling CreateStreamProcessor. To
tell StartStreamProcessor which stream processor to start, use the value of the Name
field specified in the call to CreateStreamProcessor.
startStreamProcessorRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Future<StopStreamProcessorResult> stopStreamProcessorAsync(StopStreamProcessorRequest stopStreamProcessorRequest)
Stops a running stream processor that was created by CreateStreamProcessor.
stopStreamProcessorRequest - Future<StopStreamProcessorResult> stopStreamProcessorAsync(StopStreamProcessorRequest stopStreamProcessorRequest, AsyncHandler<StopStreamProcessorRequest,StopStreamProcessorResult> asyncHandler)
Stops a running stream processor that was created by CreateStreamProcessor.
stopStreamProcessorRequest - asyncHandler - Asynchronous callback handler for events in the lifecycle of the request. Users can provide an
implementation of the callback methods in this interface to receive notification of successful or
unsuccessful completion of the operation.Copyright © 2013 Amazon Web Services, Inc. All Rights Reserved.