How can I make a electroplating rate algorithm ?

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Hello , I have a problem with making an electroplating algorithm cause dont know where I can start from. I mean when doing electroplating the copper in brass there are multiple factors like pH , copper concentration in bath , etc., but all this so that it gives different outputs like more corrugation or a matte look in the already electroplated brass the thing is I want to calculate the difference between this flawed outcome with an ideal pattern and give it a rate from 0 to 10. I want to know which tools from matlab can I use and how can I approach this problem ,another issue is that I dont have a large dataset to train something like a deep learning network. I give some images to better depicting the idea. Thanks
           Here is the alleged ideal pattern from which the rest of the samples are compared.
Here is the alleged ideal pattern from which the rest of the samples are compared.
Here there is a strained plate caused by the effect of few acid but with a more shiny surface
Heres a matte surface plate caused by lack of surfactant but with less straining
Thnaks a lot for the help.

Accepted Answer

Hassaan
Hassaan on 31 Dec 2023
Edited: Hassaan on 31 Dec 2023
I'll guide you through a general approach and highlight MATLAB tools and functions that might be useful:
1. Define Quality Metrics:
  • Identify Parameters: Determine which factors (e.g., pH, copper concentration) affect quality.
  • Quality Scale: Define what a 0-10 rating means for your brass electroplating quality.
2. Collect and Preprocess Data:
  • Gather Images: Collect images of electroplated brass with various known quality levels.
  • Record Conditions: Document the electroplating conditions (pH, concentration) for each sample.
  • Image Preprocessing: Use MATLAB's Image Processing Toolbox to standardize and enhance images.
3. Feature Extraction:
  • Texture Analysis: Extract texture features from images (MATLAB's graycomatrix, graycoprops).
  • Statistical Features: Calculate statistical measures from both images and electroplating conditions.
4. Choose a Modeling Approach:
  • Simple Models: Start with simpler models like linear regression (fitlm) if the dataset is small.
  • Machine Learning: Consider supervised learning techniques if you have enough data (decision trees, SVM).
5. Develop the Algorithm:
  • Coding: Use MATLAB to implement the chosen model, incorporating both image features and electroplating conditions.
  • Testing: Test the algorithm on a subset of your data to evaluate its initial performance.
6. Validate and Refine:
  • Cross-Validation: Perform k-fold cross-validation to assess the model's generalizability.
  • Adjust Model: Based on validation results, adjust your model and features as needed.
7. Rate Quality:
  • Scoring Function: Develop a function that inputs the conditions and image, and outputs a 0-10 quality rating.
  • User Feedback: If possible, incorporate user feedback to adjust and improve the rating scale.
8. Documentation:
  • Code Documentation: Clearly document each part of the code for future reference and modifications.
  • Process Documentation: Record your approach, considerations, and modifications for ongoing improvement.
9. Interface (Optional):
  • GUI Development: If desired, use MATLAB's App Designer to create a user interface for easier interaction with your tool.
10. Continuous Improvement:
  • Iterate: Continuously refine the model with new data and feedback.
By following these steps, you can create a structured approach to developing your electroplating quality assessment tool in MATLAB.
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