Download PDFOpen PDF in browserDeep Learning: Unraveling the Black Box of Neural NetworksEasyChair Preprint 125358 pages•Date: March 18, 2024AbstractDeep learning has revolutionized various fields by enabling the development of complex models capable of learning from vast amounts of data. However, the inner workings of deep neural networks often remain opaque, leading to the metaphorical characterization of these models as "black boxes." This paper aims to unravel the black box of neural networks by exploring methods and techniques for understanding and interpreting their decisions. Through a comprehensive review of existing literature, we examine approaches such as visualization, feature attribution, and model distillation, which shed light on the mechanisms underlying neural network predictions. By gaining insights into the inner workings of deep learning models, researchers and practitioners can improve model transparency, interpretability, and trustworthiness, ultimately advancing the broader adoption and impact of deep learning technology. Keyphrases: Artificial Intelligence, Feature Attribution, black box, deep learning, interpretability, machine learning, model distillation, neural networks, transparency, visualization
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