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Megazord (Backend) is the backend of an industrial pieces image recognition app using deep learning.

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Megazord

plot

Unit tests License: MIT

Deep learning project realised by Lucas Saban and Augustin Cramer for Soft Next.

Please mention us if you use this code.
Feel free to contact us at : [email protected] or [email protected].

The goal is to classify the maximum amount of industrial pieces while minimizing misclassifcations.

Demonstration

Demo

Lexicon :

Zords : Convolutionnal Neural Networks (CNN) trained to classify labels from the same class. For example, handle distinguish the labels handle_lock and handle_lockless.

Main Zord : CNN trained to distinguish classes. (ex: handles from motors)

MegaZord : Assemblage of the Main Zord and the different Zord

Concept :

Our model makes predictions following a two-stage process.

Firstly, the image is inputed into the main_zord which determines its class. If it's a single classe label, then the job is done and the prediction is made.
If it's not the case, if the image belongs to a class with several labels, a mask is applied so that the input is inputed in the adequate zord and only this one. Then a label prediction is made and outputted.

However, it will not be valid for the frontend as the confidence of the output must be superior to 0.7 to be considered as such

OnBoarding

Installation

pip install git+https://github.com/iSab01/megazord-backend

Creating the dataset

In order to get enough data to train our models, we used video_to_frame.py. It allowed to video-scan our pieces in different environnements quite quickly and to extract pictures from it.

For example :

from MegaZord.utilitaries.video_to_frame import framer

directory = "my_dir_with_videos"

framer(fps_goal=8,  directory=directory, rescale=True, shape=(256,256))

You might want to put your video into labels folders and iterate upon the directories to automatize the process.

Make the app

Training and assembling a model

The main file is megazord.py in the directory SwissKnife

from MegaZord.SwissKnife.megazord import SwissKnife

Instantiates the SwissKnife object with your main directory path and the base_model used for zord. For now, InceptionV3, MobileNetV2, EfficientNetV2 and EfficientNet are supported (the input must be in low cap)

The main_zord will be trained with inceptionV3 no matter the base_model chosen. Making good main predictions on the main zord is crucial.

swiss_knife = SwissKnife(directory = "/Users/lucas/swiss_knife", base_model = "mobilenetv2")

If some zords are missing, they will be trained with the following command :

swiss_knife.train_zords(epochs= 2)

Then, it's time to assemble the main_zord and every zords :

megazord = swiss_knife.assemble_megazord()

To save the megazord :

swiss_knife.save(megazord)

Warnings : If the base_model is efficientNetV2, you might encounter errors when loading the saved file.

Finally, the user can convert the megazord to .mlmodel with :

swiss_knife.megazord_to_coreml(megazord)

Configuring the app

Now that the mlmodel has been saved, you need to create a plist file containing info about your labels for the app to work. Please run the following command :

execfile("Megazord/utilitaries/ProductCatalog_Maker.py")

Then you have to open the xcode project and update the files ProductCatalog.plist and MegaZord_mobilenetv2.mlmodel.

IOS >= 13.0.0 is required.

Finally, build the app on the simulator or your iDevice after signing the project with your developper account.

Versions

Module Version
Python 3.9
tensorflow 2.5.0
coremltools 4.1
opencv 4.5.2.54
tqdm 4.61.1
numpy 1.19.5
matplotlib 3.4.2

The frontend

The app is based on code sample found on the Apple Developper website. We only modified it to work with our model and to adapt the detection threshold.
It's not energy efficient and is quite heavy.
For now, it's only for visualization but we might spend more time on it later on.

The code can be found here, in the frontend repo

The .plist files needed to show predictions are the output of :

execfile('MegaZord/utilitaries/ProductCatalog_Maker.py')
execfile('MegaZord/utilitaries/UndefinedProductCatalog_Maker.py')
execfile('MegaZord/utilitaries/ref_to_id_maker.py')

Techniques used

In this project we used Data Augmentation, Transfer Learning (Inception V3,EfficentNet, EfficientNetV2, MobileNetV2), Fine Tuning.

Errors known

The importation processes in-between files is quite messy, you might check that first if you encounter errors.

Why Megazord and zords ?

Well, it is because of the architecture of our neural network. It combines several small neural networks, trained to distinguish object from the same class (ex: motor_s and motor_m) to make a big neural networks that classify each label. It made us remember the good old days, when we used to watch the Power Rangers series. They used to merge their zords (each Ranger had its own zord aka fighter robot) into a megazord which could defeat the bad guys. In our case, the megazord is the final model and the zords are the secondary models.

Tips

Directory organization

Please remember that your main directory must look like this :

  main_directory

        main_directory/class_1

              main_directory/class_1/label_1

                    main_directory/class_1/label_1/pic_1 ...

              main_directory/class_1/label_2

        main_directory/class_2

              main/directory/class_2/label_1

                    main/directory/class_2/label_1/pic_2 ..

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Megazord (Backend) is the backend of an industrial pieces image recognition app using deep learning.

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