Xueqing Wu scite author profile

Xueqing Wu

5Publications

80Citation Statements Received

201Citation Statements Given

How they've been cited

151

How they cite others

189

201

Affiliations

University of Science and Technology of China, PowerChina (China)

Publications

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Adaptive Period Embedding for Representing Oriented Objects in Aerial Images

Zhu

2020

IEEE Trans. Geosci. Remote Sensing

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We propose a novel method for representing oriented objects in aerial images named Adaptive Period Embedding (APE). While traditional object detection methods represent object with horizontal bounding boxes, the objects in aerial images are oritented. Calculating the angle of object is an yet challenging task. While almost all previous object detectors for aerial images directly regress the angle of objects, they use complex rules to calculate the angle, and their performance is limited by the rule design. In contrast, our method is based on the angular periodicity of oriented objects. The angle is represented by two two-dimensional periodic vectors whose periods are different, the vector is continuous as shape changes. The label generation rule is more simple and reasonable compared with previous methods. The proposed method is general and can be applied to other oriented detector. Besides, we propose a novel IoU calculation method for long objects named length independent IoU (LIIoU). We intercept part of the long side of the target box to get the maximum IoU between the proposed box and the intercepted target box. Thereby, some long boxes will have corresponding positive samples. Our method reaches the 1 st place of DOAI2019 competition task1 (oriented object) held in workshop on Detecting Objects in Aerial Images in conjunction with IEEE CVPR 2019.

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Text-to-Table: A New Way of Information Extraction

Wu¹,

Zhang²,

Li³

2022

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We study a new problem setting of information extraction (IE), referred to as text-to-table . In text-to-table, given a text, one creates a table or several tables expressing the main content of the text, while the model is learned from text-table pair data. The problem setting differs from those of the existing methods for IE. First, the extraction can be carried out from long texts to large tables with complex structures. Second, the extraction is entirely data-driven, and there is no need to explicitly define the schemas. As far as we know, there has been no previous work that studies the problem. In this work, we formalize textto-table as a sequence-to-sequence (seq2seq) problem. We first employ a seq2seq model finetuned from a pre-trained language model to perform the task. We also develop a new method within the seq2seq approach, exploiting two additional techniques in table generation: table constraint and table relation embeddings.We consider text-to-table as an inverse problem of the well-studied table-to-text, and make use of four existing table-to-text datasets in our experiments on text-to-table. Experimental results show that the vanilla seq2seq model can outperform the baseline methods of using relation extraction and named entity extraction. The results also show that our method can further boost the performances of the vanilla seq2seq model. We further discuss the main challenges of the proposed task. The code and data are available at https://github. com/shirley-wu/text_to_table. 1

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Two-stage optimal scheduling of air conditioning resources with high photovoltaic penetrations

Wang

et al. 2019

Journal of Cleaner Production

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A study of BERT for context-aware neural machine translation

Xia

Zhu

et al. 2022

Mach Learn

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Smart coordination of virtual energy storage systems for distribution network management

Wang

Lai

et al. 2021

International Journal of Electrical Power & Energy Systems

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Xueqing Wu

Adaptive Period Embedding for Representing Oriented Objects in Aerial Images

Text-to-Table: A New Way of Information Extraction

Two-stage optimal scheduling of air conditioning resources with high photovoltaic penetrations

A study of BERT for context-aware neural machine translation

Smart coordination of virtual energy storage systems for distribution network management

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