A Hybrid Siamese Neural Network for Natural Language Inference in Cyber-Physical Systems

Pin Ni; Yuming Li; Gangmin Li; Victor Chang

doi:10.1145/3418208

A Hybrid Siamese Neural Network for Natural Language Inference in Cyber-Physical Systems

Pin Ni, Yuming Li, Gangmin Li, Victor Chang

Research output: Contribution to journal › Article › peer-review

Abstract

Cyber-Physical Systems (CPS), as a multi-dimensional complex system that connects the physical world and the cyber world, has a strong demand for processing large amounts of heterogeneous data. These tasks also include Natural Language Inference (NLI) tasks based on text from different sources. However, the current research on natural language processing in CPS does not involve exploration in this field. Therefore, this study proposes a Siamese Network structure that combines Stacked Residual Long Short-Term Memory (bidirectional) with the Attention mechanism and Capsule Network for the NLI module in CPS, which is used to infer the relationship between text/language data from different sources. This model is mainly used to implement NLI tasks and conduct a detailed evaluation in three main NLI benchmarks as the basic semantic understanding module in CPS. Comparative experiments prove that the proposed method achieves competitive performance, has a certain generalization ability, and can balance the performance and the number of trained parameters.

Original language	English
Article number	33
Number of pages	25
Journal	ACM Transactions on Internet Technology
Volume	21
Issue number	2
DOIs	https://doi.org/10.1145/3418208
Publication status	Published - 15 Mar 2021

Bibliographical note

© 2021 ACM

Funding Information:
This research was partly funded by VC Research (VCR 0000059). At the same time, this study is also partially supported by the AI University Research Centre (AI-URC) through the XJTLU Key Program Special Fund (KSF-P-02) and KSF-A-17. And this work has received support from the Suzhou Bureau of Sci. and Tech. and the Key Industrial Tech. Inno. program (No. SYG201840).

Keywords

Cyber-physical systems
Natural language inference
Siamese neural networks

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10.1145/3418208

A Hybrid Siamese Neural Network for Natural Language Inference in Cyber-Physical Systems
© 2021 ACM
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title = "A Hybrid Siamese Neural Network for Natural Language Inference in Cyber-Physical Systems",

abstract = "Cyber-Physical Systems (CPS), as a multi-dimensional complex system that connects the physical world and the cyber world, has a strong demand for processing large amounts of heterogeneous data. These tasks also include Natural Language Inference (NLI) tasks based on text from different sources. However, the current research on natural language processing in CPS does not involve exploration in this field. Therefore, this study proposes a Siamese Network structure that combines Stacked Residual Long Short-Term Memory (bidirectional) with the Attention mechanism and Capsule Network for the NLI module in CPS, which is used to infer the relationship between text/language data from different sources. This model is mainly used to implement NLI tasks and conduct a detailed evaluation in three main NLI benchmarks as the basic semantic understanding module in CPS. Comparative experiments prove that the proposed method achieves competitive performance, has a certain generalization ability, and can balance the performance and the number of trained parameters.",

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N2 - Cyber-Physical Systems (CPS), as a multi-dimensional complex system that connects the physical world and the cyber world, has a strong demand for processing large amounts of heterogeneous data. These tasks also include Natural Language Inference (NLI) tasks based on text from different sources. However, the current research on natural language processing in CPS does not involve exploration in this field. Therefore, this study proposes a Siamese Network structure that combines Stacked Residual Long Short-Term Memory (bidirectional) with the Attention mechanism and Capsule Network for the NLI module in CPS, which is used to infer the relationship between text/language data from different sources. This model is mainly used to implement NLI tasks and conduct a detailed evaluation in three main NLI benchmarks as the basic semantic understanding module in CPS. Comparative experiments prove that the proposed method achieves competitive performance, has a certain generalization ability, and can balance the performance and the number of trained parameters.

AB - Cyber-Physical Systems (CPS), as a multi-dimensional complex system that connects the physical world and the cyber world, has a strong demand for processing large amounts of heterogeneous data. These tasks also include Natural Language Inference (NLI) tasks based on text from different sources. However, the current research on natural language processing in CPS does not involve exploration in this field. Therefore, this study proposes a Siamese Network structure that combines Stacked Residual Long Short-Term Memory (bidirectional) with the Attention mechanism and Capsule Network for the NLI module in CPS, which is used to infer the relationship between text/language data from different sources. This model is mainly used to implement NLI tasks and conduct a detailed evaluation in three main NLI benchmarks as the basic semantic understanding module in CPS. Comparative experiments prove that the proposed method achieves competitive performance, has a certain generalization ability, and can balance the performance and the number of trained parameters.

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A Hybrid Siamese Neural Network for Natural Language Inference in Cyber-Physical Systems

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