Biblio

Filters: Author is Böttinger, Konstantin  [Clear All Filters]
2023-07-21
Schulze, Jan-Philipp, Sperl, Philip, Böttinger, Konstantin.  2022.  Anomaly Detection by Recombining Gated Unsupervised Experts. 2022 International Joint Conference on Neural Networks (IJCNN). :1—8.
Anomaly detection has been considered under several extents of prior knowledge. Unsupervised methods do not require any labelled data, whereas semi-supervised methods leverage some known anomalies. Inspired by mixture-of-experts models and the analysis of the hidden activations of neural networks, we introduce a novel data-driven anomaly detection method called ARGUE. Our method is not only applicable to unsupervised and semi-supervised environments, but also profits from prior knowledge of self-supervised settings. We designed ARGUE as a combination of dedicated expert networks, which specialise on parts of the input data. For its final decision, ARGUE fuses the distributed knowledge across the expert systems using a gated mixture-of-experts architecture. Our evaluation motivates that prior knowledge about the normal data distribution may be as valuable as known anomalies.
2020-05-08
Hansch, Gerhard, Schneider, Peter, Fischer, Kai, Böttinger, Konstantin.  2019.  A Unified Architecture for Industrial IoT Security Requirements in Open Platform Communications. 2019 24th IEEE International Conference on Emerging Technologies and Factory Automation (ETFA). :325—332.

We present a unified communication architecture for security requirements in the industrial internet of things. Formulating security requirements in the language of OPC UA provides a unified method to communicate and compare security requirements within a heavily heterogeneous landscape of machines in the field. Our machine-readable data model provides a fully automatable approach for security requirement communication within the rapidly evolving fourth industrial revolution, which is characterized by high-grade interconnection of industrial infrastructures and self-configuring production systems. Capturing security requirements in an OPC UA compliant and unified data model for industrial control systems enables strong use cases within modern production plants and future supply chains. We implement our data model as well as an OPC UA server that operates on this model to show the feasibility of our approach. Further, we deploy and evaluate our framework within a reference project realized by 14 industrial partners and 7 research facilities within Germany.