An artificial intelligence model for effectively removing biases in a dataset

(Nanowerk News) Daegu Gyeongbuk Institute of Science and Technology (DGIST) announced that the research team of Professor Sang-hyun Park at the Department of Robotics and Mechatronics Engineering had developed a new image translation model that could effectively reduce biases in data. In the process of developing an artificial intelligence (AI) model using images collected from different sources, contrary to the user’s intention, data biases may occur because of various factors.
The developed model can remove data biases despite the absence of information on such factors, thereby providing a high image-analysis performance. This solution is expected to facilitate innovations in the fields of self-driving, content creation, and medicine.

Key Takeaways

  • DGIST's research team develops a new image translation model aimed at reducing data biases, improving the overall performance of AI in image analysis.
  • The model employs a unique approach of "texture debiasing," which allows it to make accurate predictions, overcoming the limitations of existing deep learning techniques.
  • The technology excels in various tests, outperforming existing methods in classifying numbers, distinguishing between dogs and cats based on hair color, and identifying COVID-19 versus bacterial pneumonia.
  • The model can also be used for image manipulation, as it changes only the texture while preserving the original content of an image.
  • The innovation is poised to enhance the robustness and reliability of AI models in commercial applications, particularly in industries like self-driving cars and medicine.
  • The Research

    The findings have been reported in Neural Networks ("Content preserving image translation with texture co-occurrence and spatial self-similarity for texture debiasing and domain adaptation").
    The datasets used to train deep learning models tend to exhibit biases. For example, when creating a dataset to distinguish bacterial pneumonia from coronavirus disease 2019 (COVID-19), image collection conditions may vary because of the risk of COVID-19 infection. Consequently, these variations result in subtle differences in the images, causing existing deep learning models to discern diseases based on features stemming from differences in image protocols rather than the critical characteristics for practical disease identification.
    In this case, these models exhibit high performance based on data used for their training process. However, they show limited performance on data obtained from different places owing to their inability to effectively generalize, which can lead to overfitting issues. Particularly, existing deep learning techniques tend to use differences in textures as crucial data, which may lead to inaccurate predictions.
    To address these challenges, Prof. Park’s research team developed an image translation model that could generate a dataset applying texture debiasing and perform the learning process based on the generated dataset. Existing image translation models are often limited by the issue of texture changes leading to unintended content alterations, as textures and contents are intertwined. To address this issue, Prof. Park’s research team developed a new model that simultaneously uses error functions for both textures and contents.
    The new image translation model proposed by this research team operates by extracting information on the contents of an input image and on textures from a different domain and combining them. To simultaneously maintain information on not only the contents of input images but also the texture of the new domain, the developed model is trained using both error functions for spatial self-similarity and texture co-occurrence. Through these processes, the model can generate an image that has the texture of a different domain while maintaining information on the contents of the input image.
    As the developed deep learning model generates a dataset applying texture debiasing and uses the generated dataset for training, it exhibits a better performance than the existing models. It achieved a superior performance compared to existing debiasing and image translation techniques when tested on datasets with texture biases, such as a classification dataset for distinguishing numbers, classification dataset for distinguishing dogs and cats with different hair colors, and classification dataset applying different image protocols for distinguishing COVID-19 from bacterial pneumonia. Moreover, it outperformed existing methods when applied to datasets with various biases, such as a classification dataset for distinguishing multi-label numbers and that for distinguishing photos, images, animations, and sketches.
    Furthermore, the image translation technology proposed by Prof. Park’s research team can be implemented in image manipulation. The research team found that the developed method altered only the textures of an image while preserving its original contents. This analytic result confirmed the superior performance of the developed method compared to existing image manipulation methods. Additionally, this solution can be effectively used in other environments. The research team compared the performance of the developed method with that of existing image translation methods based on various domains, such as medical and self-driving images. Based on the analytical results, the developed method demonstrated a more excellent performance than existing methods.
    Prof. Park stated, “The technology developed in this research offers a significant performance boost in situations where biased datasets are inevitably used to train deep learning models in industrial and medical fields.” He also added, “It is expected that this solution will make a substantial contribution to enhance the robustness of AI models commercially used or distributed in diverse environments for commercial purposes.”
    Source: DGIST (Note: Content may be edited for style and length)
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