TY - EJOU AU - Farooqui, Muhammad Saad AU - Khattak, Aizaz Ahmad AU - Awaji, Bakri Hossain AU - Alturki, Nazik AU - Alnazzawi, Noha AU - Hanif, Muhammad AU - Khan, Muhammad Shahbaz TI - AutoSHARC: Feedback Driven Explainable Intrusion Detection with SHAP-Guided Post-Hoc Retraining for QoS Sensitive IoT Networks T2 - Computer Modeling in Engineering \& Sciences PY - 2025 VL - 145 IS - 3 SN - 1526-1506 AB - Quality of Service (QoS) assurance in programmable IoT and 5G networks is increasingly threatened by cyberattacks such as Distributed Denial of Service (DDoS), spoofing, and botnet intrusions. This paper presents AutoSHARC, a feedback-driven, explainable intrusion detection framework that integrates Boruta and LightGBM–SHAP feature selection with a lightweight CNN–Attention–GRU classifier. AutoSHARC employs a two-stage feature selection pipeline to identify the most informative features from high-dimensional IoT traffic and reduces 46 features to 30 highly informative ones, followed by post-hoc SHAP-guided retraining to refine feature importance, forming a feedback loop where only the most impactful attributes are reused to retrain the model. This iterative refinement reduces computational overhead, accelerates detection latency, and improves transparency. Evaluated on the CIC IoT 2023 dataset, AutoSHARC achieves 98.98% accuracy, 98.9% F1-score, and strong robustness with a Matthews Correlation Coefficient of 0.98 and Cohen’s Kappa of 0.98. The final model contains only 531,272 trainable parameters with a compact 2 MB size, enabling real-time deployment on resource-constrained IoT nodes. By combining explainable AI with iterative feature refinement, AutoSHARC provides scalable and trustworthy intrusion detection while preserving key QoS indicators such as latency, throughput, and reliability. KW - QoS preservation; intelligent programmable networks; intrusion detection; IoT security; feature selection; SHAP explainability; Boruta; LightGBM; explainable deep learning; resource-efficient AI DO - 10.32604/cmes.2025.072023