Xingyang Shao scite author profile

Xingyang Shao

4Publications

20Citation Statements Received

88Citation Statements Given

How they've been cited

How they cite others

113

Affiliations

Beijing Academy of Artificial Intelligence, Beijing University of Technology

Publications

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Predicting prognosis of endometrioid endometrial adenocarcinoma on the basis of gene expression and clinical features using Random Forest

et al. 2019

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Traditional clinical features are not sufficient to accurately judge the prognosis of endometrioid endometrial adenocarcinoma (EEA). Molecular biological characteristics and traditional clinical features are particularly important in the prognosis of EEA. The aim of the present study was to establish a predictive model that considers genes and clinical features for the prognosis of EEA. The clinical and RNA sequencing expression data of EEA were derived from samples from The Cancer Genome Atlas (TCGA) and Peking University People's Hospital (PKUPH; Beijing, China). Samples from TCGA were used as the training set, and samples from the PKUPH were used as the testing set. Variable selection using Random Forests (VSURF) was used to select the genes and clinical features on the basis of TCGA samples. The RF classification method was used to establish the prediction model. Kaplan-Meier curves were tested with the log-rank test. The results from this study demonstrated that on the basis of TCGA samples, 11 genes and the grade were selected as the input features. In the training set, the out-of-bag (OOB) error of RF model-1, which was established using the ‘11 genes’, was 0.15; the OOB error of RF model-2, which was established using the ‘grade’, was 0.39; and the OOB error of RF model-3, established using the ‘11 genes and grade’, was 0.15. In the testing set, the classification accuracy of RF model-1, model-2 and model-3 was 71.43, 66.67 and 80.95%, respectively. In conclusion, to the best of our knowledge, the VSURF was used to select features relevant to EEA prognosis, and an EEA predictive model combining genes and traditional features was established for the first time in the present study. The prediction accuracy of the RF model on the basis of the 11 genes and grade was markedly higher than that of the RF models established by either the 11 genes or grade alone.

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A DBN-Based Deep Neural Network Model with Multitask Learning for Online Air Quality Prediction

Shao

Sun

2019

Journal of Control Science and Engineering

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To avoid the adverse effects of severe air pollution on human health, we need accurate real-time air quality prediction. In this paper, for the purpose of improve prediction accuracy of air pollutant concentration, a deep neural network model with multitask learning (MTL-DBN-DNN), pretrained by a deep belief network (DBN), is proposed for forecasting of nonlinear systems and tested on the forecast of air quality time series. MTL-DBN-DNN model can solve several related prediction tasks at the same time by using shared information contained in the training data of different tasks. In the model, DBN is used to learn feature representations. Each unit in the output layer is connected to only a subset of units in the last hidden layer of DBN. Such connection effectively avoids the problem that fully connected networks need to juggle the learning of each task while being trained, so that the trained networks cannot get optimal prediction accuracy for each task. The sliding window is used to take the recent data to dynamically adjust the parameters of the MTL-DBN-DNN model. The MTL-DBN-DNN model is evaluated with a dataset from Microsoft Research. Comparison with multiple baseline models shows that the proposed MTL-DBN-DNN achieve state-of-art performance on air pollutant concentration forecasting.

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An Online Method Based on Random Forest for Air Pollutant Concentration Forecasting

Shao

Zhao

2018

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Modeling of Fluid-Structure Interaction to Enhance Battery Thermal Management in Electric Vehicles

Liao¹,

Xu²,

Huang³

et al. 2022

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Xingyang Shao

Predicting prognosis of endometrioid endometrial adenocarcinoma on the basis of gene expression and clinical features using Random Forest

A DBN-Based Deep Neural Network Model with Multitask Learning for Online Air Quality Prediction

An Online Method Based on Random Forest for Air Pollutant Concentration Forecasting

Modeling of Fluid-Structure Interaction to Enhance Battery Thermal Management in Electric Vehicles

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