QATNet: A Lightweight Quantum–Classical Tabular Network for Low-Latency Intrusion Detection

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QATNet: A Lightweight Quantum–Classical Tabular Network for Low-Latency Intrusion Detection

Abubakar Danasabe et al · IEEE · 2026

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Abubakar Danasabe et al

Editorial

IEEE

Año

2026

ISSN

2689-1808

ISSN

2689-1808

Idioma

eng

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Modern communication environments ranging from smart mobility infrastructures to digitally integrated health care systems demand adaptable and trustworthy network security. In this situation, software-defined networks (SDNs) play a vital role by providing programmable control and global visibility, enabling rapid policy updates and fine-grained traffic management. As a result, the need for efficient and interpretable intrusion detection becomes increasingly critical. To achieve this, SDN controllers require real-time intrusion detection system (IDS) models capable of adapting to evolving traffic behaviors while operating within strict latency and resource constraints. However, most of the existing deep learning and ensemble-based models rely on either heavy architectures or nontransparent optimization processes that increase inference delay, limiting their deployability in latency-sensitive SDN controllers. This article presents quantum amplitude tabular network (QATNet), a hybrid quantum–classical framework that integrates amplitude encoding, a shallow variational quantum circuit, and an attentive TabNet head for flow-based intrusion detection. Unlike conventional deep or ensemble methods, QATNet leverages quantum-inspired feature transformations to reshape the geometric structure of network flows, enhancing class separability while maintaining controller-side efficiency. Experiments on two modern benchmarks OD-IDS2022 and CIC-IDS2018 demonstrate that QATNet consistently outperforms classical PCA–TabNet and amplitude-only baselines in accuracy, macro-F1, and area under the receiver operating characteristic curve, achieving consistent accuracy and F1-score performance across different qubit budgets (<inline-formula><tex-math notation="LaTeX">$Q\,\,{\leq }\,\,6$</tex-math></inline-formula>). Noise-simulation studies using IBM's <monospace>FakeNairobi</monospace> and <monospace>FakeJakarta</monospace> backend confirm robustness under realistic quantum noise, while runtime analysis verifies that inference latency (0.012 ms/sample) satisfies SDN controller timing requirements. The results prove that lightweight hybrid encoders provide resource-aware and noise-tolerant intrusion detection advancing the practical integration of quantum-enhanced learning in next-generation SDN security analytics.

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APA 7

al, A. D. E. (2026). QATNet: A Lightweight Quantum–Classical Tabular Network for Low-Latency Intrusion Detection. https://doi.org/10.1109/TQE.2026.3674396

MLA

al, Abubakar Danasabe et. "QATNet: A Lightweight Quantum–Classical Tabular Network for Low-Latency Intrusion Detection." 2026. https://doi.org/10.1109/TQE.2026.3674396.

Chicago

al, Abubakar Danasabe et. 2026. "QATNet: A Lightweight Quantum–Classical Tabular Network for Low-Latency Intrusion Detection.". https://doi.org/10.1109/TQE.2026.3674396.

Harvard

al, A. D. E. 2026, QATNet: A Lightweight Quantum–Classical Tabular Network for Low-Latency Intrusion Detection, IEEE, available at: https://doi.org/10.1109/TQE.2026.3674396 [Accessed 25 Jun. 2026].

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Título: QATNet: A Lightweight Quantum–Classical Tabular Network for Low-Latency Intrusion Detection

Autor / colaboradores: Abubakar Danasabe et al

Editorial: IEEE

Año de publicación: 2026

ISSN: 2689-1808

ISSN: 2689-1808

Idioma: eng

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Amplitude encoding; cybersecurity analytics; explainable AI; hybrid quantum–classical learning; intrusion detection; quantum machine learning