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Emoji Scavenger Hunt is an experiment that leverages the power of neural networks and your phone’s camera to identify the real world versions of the emojis we use every day.

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👾 Emoji Scavenger Hunt 👾

Emoji Scavenger Hunt is an experimental web based game that makes use of TensorFlow.js to identify objects seen by your webcam or mobile camera in the browser. We show you emojis 🍌 ⏰ ☕️ 📱 and you have to find those objects in the real world before your timer runs out 🏆 👍.

Find out how we built this experiment by reading our article on the Tensorflow blog or try it for yourself at g.co/emojiscavengerhunt.

Development

yarn prep

Running yarn prep will use yarn to get the right packages and setup the right folders. If you don't have yarn you can install it via homebrew (for Mac). If you’re already running node/npm with nvm (our recommendation) you can install yarn without node using brew install yarn --without-node.

In order to start local development we also require the installation of the Google Cloud SDK and associated App Engine Components. These are used for the local webserver and pushing to app engine for static site hosting.

Once you have both installed you can run the local development server with:

yarn dev

This task uses watchify to continually watch for changes to JS and SASS files and recompiles them if any changes are detected. You can access the local development server at http://localhost:3000/

When building assets for production use:

yarn build

This will minify SASS and JS for serving in production.

Build your own model

You can build your own image recognition model by running a Docker container. Dockerfiles are in training directory.

Prepare images for training by dividing them into directories for each label name that you want to train. For example: the directory structure for training cat and dog will look as follows assuming image data is stored under data/images.

data
└── images
    ├── cat
    │   ├── cat1.jpg
    │   ├── cat2.jpg
    │   └── ...
    └── dog
        ├── dog1.jpg
        ├── dog2.jpg
        └── ...

Once the sample images are ready, you can kickstart the training by building and running the Docker container.

$ cd training
$ docker build -t model-builder .
$ docker run -v /path/to/data:/data -it model-builder

After the training is completed, you'll see three files in the data/saved_model_web directory:

  • tensorflowjs_model.pb (the dataflow graph)
  • weights_manifest.json (weight manifest file)
  • group1-shard*of* (collection of binary weight files)

They are SavedModel files in a web-friendly format converted by the TensorFlow.js converter. You can build your own game using your own custom image recognition model by replacing the corresponding files under the dist/model/ directory with the newly generated ones.

The training script will also generate a file called scavenger_classes.ts which works in conjunction with your generated custom model. You need to replace the file at src/js/scavenger_classes.ts with this newly generated scavenger_classes.ts file so that the labels of your model match with the trained data. After replacing the file you can run the build script normally to test your model in a browser. See the README file for information on running a preview server.

Update the game logic in src/js/game.ts if needed.

Using GPU

You can boost the training speed by utilizing your GPU. If you want to use the GPU for training, install nvidia-docker and run:

$ cd training
$ nvidia-docker build -f Dockerfile.gpu model-builder
$ nvidia-docker run -v /path/to/data:/data -it model-builder

License

Copyright 2018 Google LLC

Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at

https://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.

Credits

This is an experiment and collaboration between Google Brand Studio and the PAIR teams at Google.

Final Thoughts

This is not an official Google product. We will do our best to support and maintain this experiment but your mileage may vary.

We encourage open sourcing projects as a way of learning from each other. Please respect our and other creators’ rights, including copyright and trademark rights when present, when sharing these works and creating derivative work.

If you want more info on Google's policy, you can find that here

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Emoji Scavenger Hunt is an experiment that leverages the power of neural networks and your phone’s camera to identify the real world versions of the emojis we use every day.

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