A Novel Short-Term Anomaly Prediction for IIoT with Software Defined Twin Network
This work addresses secure monitoring and dynamic control for IIoT systems, though it appears incremental as it builds on existing SDN and DT concepts with a focus on implementation details.
The paper tackles short-term anomaly detection in Industrial Internet of Things (IIoT) environments by proposing a novel framework that integrates Software-Defined Network (SDN) and Digital Twin (DT) paradigms, resulting in a GPU-accelerated LightGBM model achieving high recall and strong classification performance in real-time deployment.
Secure monitoring and dynamic control in an IIoT environment are major requirements for current development goals. We believe that dynamic, secure monitoring of the IIoT environment can be achieved through integration with the Software-Defined Network (SDN) and Digital Twin (DT) paradigms. The current literature lacks implementation details for SDN-based DT and time-aware intelligent model training for short-term anomaly detection against IIoT threats. Therefore, we have proposed a novel framework for short-term anomaly detection that uses an SDN-based DT. Using a comprehensive dataset, time-aware labeling of features, and a comprehensive evaluation of various machine learning models, we propose a novel SD-TWIN-based anomaly detection algorithm. According to the performance of a new real-time SD-TWIN deployment, the GPU- accelerated LightGBM model is particularly effective, achieving a balance of high recall and strong classification performance.