Few-shot learning assumes that we have a very small dataset for each task and trains a model on the set of tasks. For real-world problems, however, the amount of available data is substantially much more; we call this a medium-shot setting, where the dataset often has several hundreds of data. Despite their high accuracy, deep neural networks have a drawback as they are black-box. Learning interpretable models has become more important over time. This study aims to obtain sample-based interpretability using the attention mechanism. The main idea is reducing the task training data into a small number of support vectors using sparse kernel methods, and the model then predicts the test data of the task based on these support vectors. We propose a sparse medium-shot learning algorithm based on a metric-based Bayesian meta-learning algorithm whose output is probabilistic. Sparsity, along with uncertainty, effectively plays a key role in interpreting the model's behavior. In our experiments, we show that the proposed method provides significant interpretability by selecting a small number of support vectors and, at the same time, has a competitive accuracy compared to other less interpretable methods.
Adabi Firuzjaee, Z., & Ghiasi-Shirazi, S. K. (2022). Meta-Learning for Medium-shot Sparse Learning via Deep Kernels. Computer and Knowledge Engineering, 5(2), 45-56. doi: 10.22067/cke.2022.77529.1060
MLA
Zohreh Adabi Firuzjaee; Sayed Kamaledin Ghiasi-Shirazi. "Meta-Learning for Medium-shot Sparse Learning via Deep Kernels", Computer and Knowledge Engineering, 5, 2, 2022, 45-56. doi: 10.22067/cke.2022.77529.1060
HARVARD
Adabi Firuzjaee, Z., Ghiasi-Shirazi, S. K. (2022). 'Meta-Learning for Medium-shot Sparse Learning via Deep Kernels', Computer and Knowledge Engineering, 5(2), pp. 45-56. doi: 10.22067/cke.2022.77529.1060
VANCOUVER
Adabi Firuzjaee, Z., Ghiasi-Shirazi, S. K. Meta-Learning for Medium-shot Sparse Learning via Deep Kernels. Computer and Knowledge Engineering, 2022; 5(2): 45-56. doi: 10.22067/cke.2022.77529.1060
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