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This repository contains code developed at AIVolved for quality testing using Machine Learning & Artificial Intelligence. Several goals were pursued on key datasets including:

  1. Eye-patch shift detection using non-ML computer vision techniques (92.98% accuracy)
  2. Clustering & SVD on ResNet output for unsupervised defect detection in soap (99.55% acccuracy)
  3. Unsupervised, single-shot defect detection in soap using the Fourier Transform (100% accuracy)
  4. Cut detection in shampoo using Sobel & Canny filters + Hough Transform (N/A)

Eye-patch shift Dataset

eyeshift.ipynb contains code that identifies defects in eye-patches for shampoo packets. First, a YOLOv8 model identifies horizontal and vertical cuts, then a linear regression is performed through the horizontal cuts, and eye-patches outside a threshold are categorised as defective.

Accuracy: 92.98%

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Soap Dataset

soap-binary-classifier.ipynb uses a simple fully-connected layer on the outputs from ResNet18, fine-tuned on a dataset of soap to classify as either defective or non-defective.

Accuracy: 100%

Non-Defective Defective
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soap-feature-clustering.ipynb is an unsupervised approach to defect detection in this dataset where features from the ResNet18 output undergo a Singular Value Decomposition (SVD) and are then clustered using Birch.

Accuracy: 99.55%

Ground Truth SVD & Clustering Prediction
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soap-autoencoder.ipynb is actually a U-net which attempts to reconstruct masked images of soap to predict defective pieces by correcting errors.

Accuracy: untested.

Masked Input Prediction
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soap-fourier-analysis.ipynb is a single-shot, unsupervised method for defect detection on a normalised dataset. A non-defective single-shot reference image is chosen and the squared complex-difference between its Fourier Transform and all other images in the dataset are compared and clustered.

Accuracy: 100%

Fourier Transform of Soap Histogram of Differences to Reference
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Shampoo Dataset

shampoo.ipynb contains code that identifies defective cuts in shampoo packets. First, vertical cuts are extracted using a YOLOv8 model, the cuts are equalised and normalised and a sobel filter is applied to enhance edges. A Canny edge-detector is used followed by a Hough transform to identify cuts.

Accuracy: visually excellent. No quantitative measure.

Masked Input Cuts Extracted from YOLOv8
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Equalised & Sobel Filtered Canny Edge-detection & Hough Transform
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