Yunfei Liu scite author profile

Yunfei Liu

3Publications

2Citation Statements Received

63Citation Statements Given

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Sichuan University, Shanghai Jiao Tong University

Publications

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Truth Inference With a Deep Clustering-Based Aggregation Model

et al. 2020

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Traditional truth inference algorithms take multiple source labels as input and infer true labels for objects. Besides source labels, object features have been introduced in inference algorithms to achieve superior performance. A typical algorithm such as learning from crowds learns a classification model with the guide of inferred true labels where true labels are inferred from source labels. However, the main shortcoming exists in current algorithms and limits their inference performance: label noise. Since source labels from real-world data are noisy, a classifier is likely to be misguided to learn an imprecise decision boundary. In this paper, we propose a deep clustering-based aggregation model (DCAM) to overcome the shortcoming. DCAM introduces clustering for object features to form fine-grained clusters, where objects in the same cluster are supposed to have similar labels. DCAM exploits a cluster label distribution to represent the labeling information of all objects in the corresponding cluster to overcome the problem of label noise. To implement the idea of clustering-based truth inference, DCAM integrates source label generation and deep clustering in a unified framework by utilizing maximum a posteriori (MAP) estimation. Therefore, the proposed model is a novel approach for truth inference with object features. Experimental results on eight real-world inference tasks show that DCAM has a significant improvement of inference accuracy over the state-of-the-art truth inference algorithms. We further discuss the effect of cluster numbers, the quality of clustering, and illustrate the learned embeddings to support the effectiveness of DCAM. INDEX TERMS Crowdsourcing, truth inference, clustering methods, neural networks, unsupervised learning, machine learning.

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An innovative short-term multihorizon photovoltaic power output forecasting method based on variational mode decomposition and a capsule convolutional neural network

Liu

Cai

et al. 2023

Applied Energy

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An Improved Neural Lyapunov Method for Transient Stability Assessment of Networked Microgrids

Liu

Zhang

Liu

et al. 2024

IEEE Trans. Smart Grid

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Yunfei Liu

Truth Inference With a Deep Clustering-Based Aggregation Model

An innovative short-term multihorizon photovoltaic power output forecasting method based on variational mode decomposition and a capsule convolutional neural network

An Improved Neural Lyapunov Method for Transient Stability Assessment of Networked Microgrids

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