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Web app for Malaria detection from the human blood sample images which is trained on National Library of Medicine dataset using Flask and Python.

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sid321axn/malaria-detection-app

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flask/gunicorn based Heroku web app for malaria detection


About the app

This repository was created to help clarify how to utilise flask and gunicorn to easily deploy a python/keras deep learning model as a web app on Heroku. This example features code for online deployment of a binary medical image classification model, based on convolutional neural network architecture. The CNN has three hidden layers and has been trained on the following malaria parasite image dataset National Library of Medicine. The trained model achieved accuracy of more than 95% on the test set and its weights have been saved in the Models folder (see file: my_model.h5) in the very useful HDF5 format. You may use your own saved trained model! Just make sure you put it in the Models folder and name it appropriately so that the flask app may call it.

A JavaScript app running on the browser calls the Flask app (app.py) to load the model weights and return results to the JavaScript app (through the 'GET' and 'POST' methods).

This app is currently live and can be found at: Malaria Detection App.

This web application has been created and the changes to whatManu Siddhartha had already prepared were the following:

  • Inclusion of a procfile to serve the app with gunicorn on the Heroku server after upload (for uploading this python app to Heroku please follow Heroku documentation on how to use git with Heroku)
  • As per Heroku requirements for stability and reproducibility, versions of all required python environments were specified in the requirements.txt file
  • Inclusion of gunicorn to the requirements.txt file
  • Changed the app.py (flask app) file to adapt it to the required functionality according to the trained binary image classification model. The program was also modified to delete every uploaded image after providing the prediction. This will prevent exceeding capacity limits on Heroku servers. The last lines of the file have been modified to work with gunicorn.
  • The Index.html and base.html files have been modified accordingly to include references and information about the model
  • This README file has been adapted to provide instructions about heroku deployment. The part for customisation has been modified also

To create a web app that runs locally follow instructions in the README file, to run the model locally. Gevent or gunicorn may be used for local deployment too.

Customization options

Use your own model

Place your trained keras deep learning model to the models directory.

Use other pre-trained model

See Keras applications for more available models such as DenseNet, MobilNet, NASNet, etc.

UI Modification

Modify files in templates and static directory.

index.html, base.html for the UI and main.js for all the behaviors

Deployment

To deploy it for public use, you need to upload this app on heroku or other python enabled server. However heroku is pretty good at recognising and running python apps. There is also a free version!

More resources

Check Siraj's "How to Deploy a Keras Model to Production" video. The corresponding repo.

Building a simple Keras + deep learning REST API.

How to deploy a Flask App to Heroku.

"# deep-learning-malaria-detection" "# malaria-detection-web-app"

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Web app for Malaria detection from the human blood sample images which is trained on National Library of Medicine dataset using Flask and Python.

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