Mingyuan Bai scite author profile

Mingyuan Bai

4Publications

20Citation Statements Received

100Citation Statements Given

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100

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University of Sydney

Publications

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Tensorial Neural Networks and Its Application in Longitudinal Network Data Analysis

Bai

Zhang

Gao

2017

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Traditional Recurrent Neural Networks assume vectorized data as inputs. However many data from modern science and technology come in certain structures such as tensorial time series data. To apply the recurrent neural networks for this type of data, a vectorisation process is necessary, while such a vectorisation leads to the loss of the precise information of the spatial or longitudinal dimensions. In addition, such a vectorized data is not an optimum solution for learning the representation for the longitudinal data. In this paper, we propose a new variant of tensorial neural networks which directly take tensorial time series data as inputs. We call this new variant as Tensorial Recurrent Neural Network (TRNN). The proposed TRNN is based on tensor Tucker decomposition.

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Tensorial Recurrent Neural Networks for Longitudinal Data Analysis

Bai¹,

Zhang²,

Gao³

2017

Preprint

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Graph Decoupling Attention Markov Networks for Semisupervised Graph Node Classification

Chen

Bai

et al. 2023

IEEE Trans. Neural Netw. Learning Syst.

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LSTM-assisted evolutionary self-expressive subspace clustering

Bai

Long

et al. 2021

Int. J. Mach. Learn. & Cyber.

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Massive volumes of high-dimensional data that evolves over time is continuously collected by contemporary information processing systems, which brings up the problem of organizing this data into clusters, i.e. achieve the purpose of dimensional deduction, and meanwhile learning its temporal evolution patterns. In this paper, a framework for evolutionary subspace clustering, referred to as LSTM-ESCM, is introduced, which aims at clustering a set of evolving high-dimensional data points that lie in a union of low-dimensional evolving subspaces. In order to obtain the parsimonious data representation at each time step, we propose to exploit the so-called self-expressive trait of the data at each time point. At the same time, LSTM networks are implemented to extract the inherited temporal patterns behind data in an overall time frame. An efficient algorithm has been proposed based on MATLAB. Next, experiments are carried out on real-world datasets to demonstrate the effectiveness of our proposed approach. And the results show that the suggested algorithm dramatically outperforms other known similar approaches in terms of both run time and accuracy.

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Mingyuan Bai

Tensorial Neural Networks and Its Application in Longitudinal Network Data Analysis

Tensorial Recurrent Neural Networks for Longitudinal Data Analysis

Graph Decoupling Attention Markov Networks for Semisupervised Graph Node Classification

LSTM-assisted evolutionary self-expressive subspace clustering

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