Image embedding guide for Python

The MediaPipe Image Embedder task lets you convert image data into a numeric representation to accomplish ML-related image processing tasks, such as comparing the similarity of two images. These instructions show you how to use the Image Embedder with Python.

For more information about the capabilities, models, and configuration options of this task, see the Overview.

Code example

The example code for Image Embedder provides a complete implementation of this task in Python for your reference. This code helps you test this task and get started on building your own image embedder. You can view, run, and edit the Image Embedder example code using just your web browser with Google Colab. You can view the source code for this example on GitHub.

Setup

This section describes key steps for setting up your development environment and code projects specifically to use Image Embedder. For general information on setting up your development environment for using MediaPipe tasks, including platform version requirements, see the Setup guide for Python.

Packages

The Image Embedder task the mediapipe pip package. You can install the dependency with the following:

$ python -m pip install mediapipe

Imports

Import the following classes to access the Image Embedder task functions:

import mediapipe as mp
from mediapipe.tasks import python
from mediapipe.tasks.python import vision

Model

The MediaPipe Image Embedder task requires a trained model that is compatible with this task. For more information on available trained models for Image Embedder, see the task overview Models section.

Select and download a model, and then store it in a local directory. You can use the recommended MobileNetV3 model.

model_path = '/absolute/path/to/mobilenet_v3_small_075_224_embedder.tflite'

Specify the path of the model within the model_asset_path parameter, as shown below:

base_options = BaseOptions(model_asset_path=model_path)

Create the task

You can use the create_from_options function to create the task. The create_from_options function accepts configuration options to set the embedder options. For more information on configuration options, see Configuration Overview.

The Image Embedder task supports 3 input data types: still images, video files and live video streams. Choose the tab corresponding to your input data type to see how to create the task and run inference.

Image

import mediapipe as mp

BaseOptions = mp.tasks.BaseOptions
ImageEmbedder = mp.tasks.vision.ImageEmbedder
ImageEmbedderOptions = mp.tasks.vision.ImageEmbedderOptions
VisionRunningMode = mp.tasks.vision.RunningMode

options = ImageEmbedderOptions(
    base_options=BaseOptions(model_asset_path='/path/to/model.tflite'),
    quantize=True,
    running_mode=VisionRunningMode.IMAGE)

with ImageEmbedder.create_from_options(options) as embedder:
  # The embedder is initialized. Use it here.
  # ...
    

Video

import mediapipe as mp

BaseOptions = mp.tasks.BaseOptions
ImageEmbedder = mp.tasks.vision.ImageEmbedder
ImageEmbedderOptions = mp.tasks.vision.ImageEmbedderOptions
VisionRunningMode = mp.tasks.vision.RunningMode

options = ImageEmbedderOptions(
    base_options=BaseOptions(model_asset_path='/path/to/model.tflite'),
    quantize=True,
    running_mode=VisionRunningMode.VIDEO)

with ImageEmbedder.create_from_options(options) as embedder:
  # The embedder is initialized. Use it here.
  # ...
    

Live stream

import mediapipe as mp

BaseOptions = mp.tasks.BaseOptions
ImageEmbedderResult = mp.tasks.vision.ImageEmbedder.ImageEmbedderResult
ImageEmbedder = mp.tasks.vision.ImageEmbedder
ImageEmbedderOptions = mp.tasks.vision.ImageEmbedderOptions
VisionRunningMode = mp.tasks.vision.RunningMode

def print_result(result: ImageEmbedderResult, output_image: mp.Image, timestamp_ms: int):
    print('ImageEmbedderResult result: {}'.format(result))

options = ImageEmbedderOptions(
    base_options=BaseOptions(model_asset_path='/path/to/model.tflite'),
    running_mode=VisionRunningMode.LIVE_STREAM,
    quantize=True,
    result_callback=print_result)

with ImageEmbedder.create_from_options(options) as embedder:
  # The embedder is initialized. Use it here.
  # ...
    

Configuration options

This task has the following configuration options for Python applications:

Option Name Description Value Range Default Value
running_mode Sets the running mode for the task. There are three modes:

IMAGE: The mode for single image inputs.

VIDEO: The mode for decoded frames of a video.

LIVE_STREAM: The mode for a livestream of input data, such as from a camera. In this mode, resultListener must be called to set up a listener to receive results asynchronously.
{IMAGE, VIDEO, LIVE_STREAM} IMAGE
l2_normalize Whether to normalize the returned feature vector with L2 norm. Use this option only if the model does not already contain a native L2_NORMALIZATION TFLite Op. In most cases, this is already the case and L2 normalization is thus achieved through TFLite inference with no need for this option. Boolean False
quantize Whether the returned embedding should be quantized to bytes via scalar quantization. Embeddings are implicitly assumed to be unit-norm and therefore any dimension is guaranteed to have a value in [-1.0, 1.0]. Use the l2_normalize option if this is not the case. Boolean False
result_callback Sets the result listener to receive the embedding results asynchronously when the Image Embedder is in the live stream mode. Can only be used when running mode is set to LIVE_STREAM N/A Not set

Prepare data

Prepare your input as an image file or a numpy array, then convert it to a mediapipe.Image object. If your input is a video file or live stream from a webcam, you can use an external library such as OpenCV to load your input frames as numpy arrays.

Image

import mediapipe as mp

# Load the input image from an image file.
mp_image = mp.Image.create_from_file('/path/to/image')

# Load the input image from a numpy array.
mp_image = mp.Image(image_format=mp.ImageFormat.SRGB, data=numpy_image)
    

Video

import mediapipe as mp

# Use OpenCV’s VideoCapture to load the input video.

# Load the frame rate of the video using OpenCV’s CV_CAP_PROP_FPS
# You’ll need it to calculate the timestamp for each frame.

# Loop through each frame in the video using VideoCapture#read()

# Convert the frame received from OpenCV to a MediaPipe’s Image object.
mp_image = mp.Image(image_format=mp.ImageFormat.SRGB, data=numpy_frame_from_opencv)
    

Live stream

import mediapipe as mp

# Use OpenCV’s VideoCapture to start capturing from the webcam.

# Create a loop to read the latest frame from the camera using VideoCapture#read()

# Convert the frame received from OpenCV to a MediaPipe’s Image object.
mp_image = mp.Image(image_format=mp.ImageFormat.SRGB, data=numpy_frame_from_opencv)
    

Run the task

You can call the embed function corresponding to your running mode to trigger inferences. The Image Embedder API will return the embedding vectors for the input image or frame.

Image

# Perform image embedding on the provided single image.
embedding_result = embedder.embed(mp_image)
    

Video

# Calculate the timestamp of the current frame
frame_timestamp_ms = 1000 * frame_index / video_file_fps

# Perform image embedding on the video frame.
embedding_result = embedder.embed_for_video(mp_image, frame_timestamp_ms)
    

Live stream

# Send the latest frame to perform image embedding.
# Results are sent to the `result_callback` provided in the `ImageEmbedderOptions`.
embedder.embed_async(mp_image, frame_timestamp_ms)
    

Note the following:

  • When running in the video mode or the live stream mode, you must also provide the Image Embedder task the timestamp of the input frame.
  • When running in the image or the video model, the Image Embedder task will block the current thread until it finishes processing the input image or frame.
  • When running in the live stream mode, the Image Embedder task doesn’t block the current thread but returns immediately. It will invoke its result listener with the embedding result every time it has finished processing an input frame. If the embedAsync function is called when the Image Embedder task is busy processing another frame, the task ignores the new input frame.

Handle and display results

Upon running inference, the Image Embedder task returns an ImageEmbedderResult object which contains the list of possible categories for the objects within the input image or frame.

The following shows an example of the output data from this task:

ImageEmbedderResult:
  Embedding #0 (sole embedding head):
    float_embedding: {0.0, 0.0, ..., 0.0, 1.0, 0.0, 0.0, 2.0}
    head_index: 0

This result was obtained by embedding the following image:

You can compare the similarity of two embeddings using the ImageEmbedder.cosine_similarity function. See the following code for an example.

# Compute cosine similarity.
similarity = ImageEmbedder.cosine_similarity(
  embedding_result.embeddings[0],
  other_embedding_result.embeddings[0])