Tao Han scite author profile

End-to-end learning from crowds has recently been introduced as an EM-free approach to training deep neural networks directly from noisy crowdsourced annotations. It models the relationship between true labels and annotations with a specific type of neural layer, termed as the crowd layer, which can be trained using pure backpropagation. Parameters of the crowd layer, however, can hardly be interpreted as annotator reliability, as compared with the more principled probabilistic approach. The lack of probabilistic interpretation further prevents extensions of the approach to account for important factors of annotation processes, e.g., instance difficulty. This paper presents SpeeLFC, a structured probabilistic model that incorporates the constraints of probability axioms for parameters of the crowd layer, which allows to explicitly model annotator reliability while benefiting from the end-to-end training of neural networks. Moreover, we propose SpeeLFC-D, which further takes into account instance difficulty. Extensive validation on real-world datasets shows that our methods improve the state-of-the-art.

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A BIM-IoT and intelligent compaction integrated framework for advanced road compaction quality monitoring and management

Han

Fang

et al. 2022

Computers and Electrical Engineering

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Cross-Modal Transfer Learning for HEp-2 Cell Classification Based on Deep Residual Network

Lei

Han

Huang³

et al. 2017

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Tao Han

A deeply supervised residual network for HEp-2 cell classification via cross-modal transfer learning

Structured Probabilistic End-to-End Learning from Crowds

A BIM-IoT and intelligent compaction integrated framework for advanced road compaction quality monitoring and management

Cross-Modal Transfer Learning for HEp-2 Cell Classification Based on Deep Residual Network

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