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Balanced Neural Architecture Search and Its Application in Specific Emitter Identification

Balanced Neural Architecture Search and Its Application in Specific Emitter Identification
Balanced Neural Architecture Search and Its Application in Specific Emitter Identification

The performance of a single neural network can vary unexpectedly corresponding to different classification tasks, and thus the network with fixed structure may lack flexibility and often lead to overfitting or underfitting. It is urgent, also the main objective of this paper, to deal with the limitation of the fixed neural network structure on classifying radar signals in different electromagnetic environments. We in this paper propose a variable network architecture search (NAS) mechanism, called balanced-NAS framework, and apply it in specific emitter identification (SEI) to greatly improve the flexibility of model searching. In the proposed balanced-NAS framework, a 'block-cell' structure and a controller based recurrent neural network (RNN) are utilized to design models automatically according to external environment. In particular, a balance function is also proposed and utilized in the balanced-NAS framework, acting on the RNN controller to take both the validation accuracy and computational budget into consideration while searching for ideal models. The efficiency of the searching process is further enhanced by exploiting a progressive strategy to design simple and complicate child models where unpromising ones after each evaluation process are obsoleted to release searching space. Simulations and experiments indicate that the proposed balanced-NAS framework is extremely efficient and outperforms the conventional algorithms in classifying radar signals in different environments.

Specific emitter identification, neural architecture search, radar, signal processing, time-frequency distribution
1053-587X
5051–5065
Du, Mingyang
d42b1519-40d9-476a-b2a3-2b9f6c63d46a
He, Xikai
ae8b3858-5a20-4793-a7bf-ba196e88aa10
Cai, Xiaohao
de483445-45e9-4b21-a4e8-b0427fc72cee
Bi, Daping
7d0942b5-14a9-4e09-b709-416fa34f31a2
Du, Mingyang
d42b1519-40d9-476a-b2a3-2b9f6c63d46a
He, Xikai
ae8b3858-5a20-4793-a7bf-ba196e88aa10
Cai, Xiaohao
de483445-45e9-4b21-a4e8-b0427fc72cee
Bi, Daping
7d0942b5-14a9-4e09-b709-416fa34f31a2

Du, Mingyang, He, Xikai, Cai, Xiaohao and Bi, Daping (2021) Balanced Neural Architecture Search and Its Application in Specific Emitter Identification. IEEE Transactions on Signal Processing, 69, 5051–5065. (doi:10.1109/TSP.2021.3107633).

Record type: Article

Abstract

The performance of a single neural network can vary unexpectedly corresponding to different classification tasks, and thus the network with fixed structure may lack flexibility and often lead to overfitting or underfitting. It is urgent, also the main objective of this paper, to deal with the limitation of the fixed neural network structure on classifying radar signals in different electromagnetic environments. We in this paper propose a variable network architecture search (NAS) mechanism, called balanced-NAS framework, and apply it in specific emitter identification (SEI) to greatly improve the flexibility of model searching. In the proposed balanced-NAS framework, a 'block-cell' structure and a controller based recurrent neural network (RNN) are utilized to design models automatically according to external environment. In particular, a balance function is also proposed and utilized in the balanced-NAS framework, acting on the RNN controller to take both the validation accuracy and computational budget into consideration while searching for ideal models. The efficiency of the searching process is further enhanced by exploiting a progressive strategy to design simple and complicate child models where unpromising ones after each evaluation process are obsoleted to release searching space. Simulations and experiments indicate that the proposed balanced-NAS framework is extremely efficient and outperforms the conventional algorithms in classifying radar signals in different environments.

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Accepted/In Press date: 18 August 2021
Published date: 30 August 2021
Keywords: Specific emitter identification, neural architecture search, radar, signal processing, time-frequency distribution
Learn more about Vision, Learning and Control research

Identifiers

Local EPrints ID: 452215
URI: http://eprints.soton.ac.uk/id/eprint/452215
DOI: doi:10.1109/TSP.2021.3107633
ISSN: 1053-587X
PURE UUID: b5d40189-295d-48e4-bd18-45f19b76f540
ORCID for Xiaohao Cai: ORCID iD orcid.org/0000-0003-0924-2834

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Date deposited: 30 Nov 2021 17:31
Last modified: 17 Mar 2024 04:01

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Contributors

Author: Mingyang Du
Author: Xikai He
Author: Xiaohao Cai ORCID iD
Author: Daping Bi

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