@inproceedings{VoglWeberGrafetal., author = {Vogl, Peter and Weber, Sergei and Graf, Julian and Neubauer, Katrin and Hackenberg, Rudolf}, title = {Design and Implementation of an Intelligent and Model-based Intrusion Detection System for Iot Networks}, series = {Cloud Computing 2022: The Thirteenth International Conference on Cloud Computing, GRIDs, and Virtualization, Special Track FAST-CSP, Barcelona, Spain, 24.-28.04.2022}, booktitle = {Cloud Computing 2022: The Thirteenth International Conference on Cloud Computing, GRIDs, and Virtualization, Special Track FAST-CSP, Barcelona, Spain, 24.-28.04.2022}, publisher = {IARIA}, address = {[Wilmington, DE, USA]}, isbn = {978-1-61208-948-5}, pages = {7 -- 12}, abstract = {The ongoing digitization and digitalization entails the increasing risk of privacy breaches through cyber attacks. Internet of Things (IoT) environments often contain devices monitoring sensitive data such as vital signs, movement or surveil-lance data. Unfortunately, many of these devices provide limited security features. The purpose of this paper is to investigate how artificial intelligence and static analysis can be implemented in practice-oriented intelligent Intrusion Detection Systems to monitor IoT networks. In addition, the question of how static and dynamic methods can be developed and combined to improve net-work attack detection is discussed. The implementation concept is based on a layer-based architecture with a modular deployment of classical security analysis and modern artificial intelligent methods. To extract important features from the IoT network data a time-based approach has been developed. Combined with network metadata these features enhance the performance of the artificial intelligence driven anomaly detection and attack classification. The paper demonstrates that artificial intelligence and static analysis methods can be combined in an intelligent Intrusion Detection System to improve the security of IoT environments.}, language = {en} } @inproceedings{FolgerHachaniFuxenetal., author = {Folger, Fabian and Hachani, Murad and Fuxen, Philipp and Graf, Julian and Fischer, Sebastian and Hackenberg, Rudolf}, title = {A Transformer-Based Framework for Anomaly Detection in Multivariate Time Series}, series = {CLOUD COMPUTING 2025, The Sixteenth International Conference on Cloud Computing, GRIDs, and Virtualization, April 06, 2025 to April 10, 2025, Valencia, Spain}, booktitle = {CLOUD COMPUTING 2025, The Sixteenth International Conference on Cloud Computing, GRIDs, and Virtualization, April 06, 2025 to April 10, 2025, Valencia, Spain}, publisher = {IARIA}, isbn = {978-1-68558-258-6}, issn = {2308-4294}, pages = {52 -- 57}, abstract = {This paper introduces a comprehensive Transformer-based architecture for anomaly detection in multivariate time series. Using self-attention, the framework efficiently processes high-dimensional sensor data without extensive feature engineering, enabling early detection of unusual patterns to prevent critical system failures. In a subsequent laboratory setup, the framework will be applied using fuzzing techniques to induce anomalies in an Electronic Control Unit, while monitoring side channels, such as temperature, voltage, and Controller Area Network messages. The overall structure of the architecture, as well as the necessary preprocessing steps, such as temporal aggregation and classification up to the optimization of the hyperparameters of the model, are presented. The evaluation of the model architecture with the postulated restrictions shows that the model handles anomaly scenarios in the dataset robustly. It is necessary to evaluate the extent to which the model can be used in practical applications in areas, such as cloud environments or the industrial Internet of Things. Overall, the results highlight the potential of Transformer models for the automated and reliable monitoring of complex time series data for deviations.}, language = {en} }