An efficient data driven framework for intrusion detection in wireless sensor networks using deep learning

Priyanshu Sinha; Dinesh Sahu; Shiv Prakash; Rajkumar Singh Rathore; Pratibha Dixit; Vivek Kumar Pandey; Iryna Hunko

doi:10.1038/s41598-025-12867-x

An efficient data driven framework for intrusion detection in wireless sensor networks using deep learning

Priyanshu Sinha, Dinesh Sahu, Shiv Prakash^*, Rajkumar Singh Rathore^*, Pratibha Dixit, Vivek Kumar Pandey, Iryna Hunko^*

^*Corresponding author for this work

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

Abstract

Wireless Sensor Networks (WSNs) are considered essential to distributed sensing in agricultural, health and industrial domains. Although WSNs have several advantages, they encounter profound cybersecurity threats owing to their processing capacities and small energy sources. In this research work, an intrusion detection framework based on deep learning is designed: a combination of Convolutional Neural Networks (CNNs) and Recurrent Neural Networks (RNNs) with an adversarial-aware optimization model. The benchmark datasets of NSL-KDD, CICIDS2017, UNSW-NB15, and CTU-13 are analyzed in a number of ways based on structure, diversity, and deep learning requirements. We propose a compound objective to optimize all of these simultaneously, maximizing detection accuracy, minimizing adversarial vulnerability and ensuring model generalizability. Synthetic oversampling with SMOTE is employed to deal with this. Cross-dataset and intra-dataset experiments are implemented when testing the proposed framework, and it outperforms in terms of robustness and transferability. Our efforts are practical in terms of the deployment of a lightweight and resilient IDS that is suitable for WSN settings.

Original language	English
Article number	34046
Journal	Scientific Reports
Volume	15
Issue number	1
Early online date	30 Sept 2025
DOIs	https://doi.org/10.1038/s41598-025-12867-x
Publication status	Published - 30 Sept 2025

Keywords

Security
Cybersecurity
Intrusion detection
Adversarial attacks
Network traffic analysis
Deep learning
WSN
Malware detection
Dataset comparison

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10.1038/s41598-025-12867-x

Cite this

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title = "An efficient data driven framework for intrusion detection in wireless sensor networks using deep learning",

abstract = "Wireless Sensor Networks (WSNs) are considered essential to distributed sensing in agricultural, health and industrial domains. Although WSNs have several advantages, they encounter profound cybersecurity threats owing to their processing capacities and small energy sources. In this research work, an intrusion detection framework based on deep learning is designed: a combination of Convolutional Neural Networks (CNNs) and Recurrent Neural Networks (RNNs) with an adversarial-aware optimization model. The benchmark datasets of NSL-KDD, CICIDS2017, UNSW-NB15, and CTU-13 are analyzed in a number of ways based on structure, diversity, and deep learning requirements. We propose a compound objective to optimize all of these simultaneously, maximizing detection accuracy, minimizing adversarial vulnerability and ensuring model generalizability. Synthetic oversampling with SMOTE is employed to deal with this. Cross-dataset and intra-dataset experiments are implemented when testing the proposed framework, and it outperforms in terms of robustness and transferability. Our efforts are practical in terms of the deployment of a lightweight and resilient IDS that is suitable for WSN settings.",

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author = "Priyanshu Sinha and Dinesh Sahu and Shiv Prakash and Rathore, \{Rajkumar Singh\} and Pratibha Dixit and Pandey, \{Vivek Kumar\} and Iryna Hunko",

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doi = "10.1038/s41598-025-12867-x",

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AU - Sinha, Priyanshu

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AU - Dixit, Pratibha

AU - Pandey, Vivek Kumar

AU - Hunko, Iryna

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N2 - Wireless Sensor Networks (WSNs) are considered essential to distributed sensing in agricultural, health and industrial domains. Although WSNs have several advantages, they encounter profound cybersecurity threats owing to their processing capacities and small energy sources. In this research work, an intrusion detection framework based on deep learning is designed: a combination of Convolutional Neural Networks (CNNs) and Recurrent Neural Networks (RNNs) with an adversarial-aware optimization model. The benchmark datasets of NSL-KDD, CICIDS2017, UNSW-NB15, and CTU-13 are analyzed in a number of ways based on structure, diversity, and deep learning requirements. We propose a compound objective to optimize all of these simultaneously, maximizing detection accuracy, minimizing adversarial vulnerability and ensuring model generalizability. Synthetic oversampling with SMOTE is employed to deal with this. Cross-dataset and intra-dataset experiments are implemented when testing the proposed framework, and it outperforms in terms of robustness and transferability. Our efforts are practical in terms of the deployment of a lightweight and resilient IDS that is suitable for WSN settings.

AB - Wireless Sensor Networks (WSNs) are considered essential to distributed sensing in agricultural, health and industrial domains. Although WSNs have several advantages, they encounter profound cybersecurity threats owing to their processing capacities and small energy sources. In this research work, an intrusion detection framework based on deep learning is designed: a combination of Convolutional Neural Networks (CNNs) and Recurrent Neural Networks (RNNs) with an adversarial-aware optimization model. The benchmark datasets of NSL-KDD, CICIDS2017, UNSW-NB15, and CTU-13 are analyzed in a number of ways based on structure, diversity, and deep learning requirements. We propose a compound objective to optimize all of these simultaneously, maximizing detection accuracy, minimizing adversarial vulnerability and ensuring model generalizability. Synthetic oversampling with SMOTE is employed to deal with this. Cross-dataset and intra-dataset experiments are implemented when testing the proposed framework, and it outperforms in terms of robustness and transferability. Our efforts are practical in terms of the deployment of a lightweight and resilient IDS that is suitable for WSN settings.

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KW - Cybersecurity

KW - Intrusion detection

KW - Adversarial attacks

KW - Network traffic analysis

KW - Deep learning

KW - WSN

KW - Malware detection

KW - Dataset comparison

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ER -

An efficient data driven framework for intrusion detection in wireless sensor networks using deep learning

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