Deep geometric convolutional network for automatic modulation classification

Rundong Li; Chengtian Song; Yuxuan Song; Xiaojun Hao; Shuyuan Yang; Xiyu Song

doi:10.1007/s11760-020-01641-3

Deep geometric convolutional network for automatic modulation classification

Rundong Li, Chengtian Song^*, Yuxuan Song, Xiaojun Hao, Shuyuan Yang, Xiyu Song

^*Corresponding author for this work

School of Mechatronical Engineering

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

9 Citations (Scopus)

Abstract

A recent trend of automatic modulation classification is to automatically learn high-level abstraction of signals, instead of manually designing features for further classification. In this paper, we propose a new deep geometric convolutional network (DGCN) to hierarchically extract discriminative features from Wigner–Ville distribution map of signals. A group of geometric filters are constructed from a least square support vector machine, to capture the linear singularity existed in maps. The filters are cascaded to construct a deep network for extracting discriminative features and classifying signals with different modulation types. Some experiments are taken to investigate the performance of DGCN, and the results show that it can achieve high accuracy in classifying 15 types of modulation signals.

Original language	English
Pages (from-to)	1199-1205
Number of pages	7
Journal	Signal, Image and Video Processing
Volume	14
Issue number	6
DOIs	https://doi.org/10.1007/s11760-020-01641-3
Publication status	Published - 1 Sept 2020

Keywords

Automatic modulation classification
Deep learning
Geometric filters
Wigner–Ville distribution

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10.1007/s11760-020-01641-3

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title = "Deep geometric convolutional network for automatic modulation classification",

abstract = "A recent trend of automatic modulation classification is to automatically learn high-level abstraction of signals, instead of manually designing features for further classification. In this paper, we propose a new deep geometric convolutional network (DGCN) to hierarchically extract discriminative features from Wigner–Ville distribution map of signals. A group of geometric filters are constructed from a least square support vector machine, to capture the linear singularity existed in maps. The filters are cascaded to construct a deep network for extracting discriminative features and classifying signals with different modulation types. Some experiments are taken to investigate the performance of DGCN, and the results show that it can achieve high accuracy in classifying 15 types of modulation signals.",

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author = "Rundong Li and Chengtian Song and Yuxuan Song and Xiaojun Hao and Shuyuan Yang and Xiyu Song",

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T1 - Deep geometric convolutional network for automatic modulation classification

AU - Li, Rundong

AU - Song, Chengtian

AU - Song, Yuxuan

AU - Hao, Xiaojun

AU - Yang, Shuyuan

AU - Song, Xiyu

PY - 2020/9/1

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N2 - A recent trend of automatic modulation classification is to automatically learn high-level abstraction of signals, instead of manually designing features for further classification. In this paper, we propose a new deep geometric convolutional network (DGCN) to hierarchically extract discriminative features from Wigner–Ville distribution map of signals. A group of geometric filters are constructed from a least square support vector machine, to capture the linear singularity existed in maps. The filters are cascaded to construct a deep network for extracting discriminative features and classifying signals with different modulation types. Some experiments are taken to investigate the performance of DGCN, and the results show that it can achieve high accuracy in classifying 15 types of modulation signals.

AB - A recent trend of automatic modulation classification is to automatically learn high-level abstraction of signals, instead of manually designing features for further classification. In this paper, we propose a new deep geometric convolutional network (DGCN) to hierarchically extract discriminative features from Wigner–Ville distribution map of signals. A group of geometric filters are constructed from a least square support vector machine, to capture the linear singularity existed in maps. The filters are cascaded to construct a deep network for extracting discriminative features and classifying signals with different modulation types. Some experiments are taken to investigate the performance of DGCN, and the results show that it can achieve high accuracy in classifying 15 types of modulation signals.

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KW - Deep learning

KW - Geometric filters

KW - Wigner–Ville distribution

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Deep geometric convolutional network for automatic modulation classification

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