Alapfogalmak
Proposing a novel framework for generative noisy label learning with partial label supervision to address challenges in noisy label learning.
Kivonat
The content introduces a novel framework for generative noisy label learning with partial label supervision. It discusses the challenges in noisy label learning, the proposed framework, and the results of experiments on various datasets. The framework aims to improve performance, reduce computation costs, and enhance the estimation of transition matrices.
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Introduction
- Deep neural networks require high-quality annotated data for training.
- Cheaper annotation processes introduce noisy labels, affecting model performance.
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Method
- Introduces a novel framework for generative noisy label learning with partial label supervision.
- Discusses the optimisation goals under different causal relationships.
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Experiments
- Experimental results on synthetic benchmarks like CIFAR10 and CIFAR100 datasets.
- Results on real-world datasets like AGNEWS, 20newsgroup, CIFAR10N, CIFAR100N, etc.
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Implementation details
- Describes the implementation details for each dataset and the baseline references.
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Experimental Results
- Shows the accuracy results on different datasets and noise types.
- Compares the performance of the proposed method with previous state-of-the-art models.
Statisztikák
"Deep neural networks often require a massive amount of high-quality annotated data for supervised training."
"Novel learning algorithms are required to robustly train DNN models when training sets contain noisy labels."
"Experimental results on synthetic benchmarks with CIFAR10 and CIFAR100 datasets demonstrate competitive performance."
Idézetek
"Our generative modelling achieves state-of-the-art results while significantly reducing the computation cost."
"Our framework outperforms previous generative approaches in terms of performance, computation cost, and transition matrix estimation error."