@misc{12995, abstract = {{Due to Industry 4.0 developments, the demanded modularity of manufacturing systems generates additional manual efforts for security experts to guarantee a secure operation. The rising utilization of information and the frequent changes of system structures necessitate a continuous and automated security engineering, especially by application of the mandatory security risk assessments. Collecting the required information for these assessments and formalising expert knowledge shall improve the security of modular manufacturing systems in the future. In order to automate the security risk assessment process, this work proposes a method to determine the Target Security Level (SL-T) in conformance to the IEC 62443 standard based on the MITRE ATT&CK framework and the Intel Threat Agent Library (TAL).}}, author = {{Ehrlich, Marco and Bröring, Andre and Diedrich, Christian and Jasperneite, Jürgen and Kastner, Wolfgang and Trsek, Henning}}, booktitle = {{2023 IEEE 21st International Conference on Industrial Informatics : INDIN 2023 : 17-20 July 2023, Lemgo, Germany}}, editor = {{Jasperneite, Jürgen}}, isbn = {{978-1-6654-9314-7}}, keywords = {{Integrated circuits, Industries, Libraries, Security, Risk management, IEC Standards, Interviews}}, location = {{Lemgo}}, publisher = {{IEEE}}, title = {{{Determining the Target Security Level for Automated Security Risk Assessments}}}, doi = {{10.1109/indin51400.2023.10217902}}, year = {{2023}}, } @unpublished{2372, abstract = {{Novel industrial wireless applications require wideband, real-time channel characterization due to complex multipath propagation. Rapid machine motion leads to fast time variance of the channel's reflective behavior, which must be captured for radio channel characterization. Additionally, inhomogeneous radio channels demand highly flexible measurements. Existing approaches for radio channel measurements either lack flexibility or wide-band, real-time performance with fast time variance. In this paper, we propose a correlative channel sounding approach utilizing a software-defined architecture. The approach enables real-time, wide-band measurements with fast time variance immune to active interference. The desired performance is validated with a demanding industrial application example.}}, author = {{Fliedner, Niels Hendrik and Block, Dimitri and Meier, Uwe}}, booktitle = {{arXiv:1805.01236}}, keywords = {{Correlation, Wireless communication, Real-time systems, Logic gates, Frequency measurement, Libraries, Time measurement}}, pages = {{6}}, title = {{{A Software-Defined Channel Sounder for Industrial Environments with Fast Time Variance}}}, year = {{2018}}, } @inproceedings{2374, abstract = {{Novel industrial wireless applications require wideband, real-time channel characterization due to complex multipath propagation. Rapid machine motion leads to fast time variance of the channel's reflective behavior, which must be captured for radio channel characterization. Additionally, inhomogeneous radio channels demand highly flexible measurements. Existing approaches for radio channel measurements either lack flexibility or wide-band, real-time performance with fast time variance. In this paper, we propose a correlative channel sounding approach utilizing a software-defined architecture. The approach enables wide-band measurements with fast time variance immune to active interference. Furthermore, its real-time capability allows live processing on demand. The desired performance is validated with a demanding industrial application example.}}, author = {{Fliedner, Niels Hendrik and Block, Dimitri and Meier, Uwe}}, booktitle = {{2018 15th International Symposium on Wireless Communication Systems (ISWCS)}}, isbn = {{9781538650059}}, keywords = {{Correlation, Wireless communication, Real-time systems, Logic gates, Frequency measurement, Libraries, Time measurement}}, location = {{Lisbon, Portugal}}, title = {{{A Software-Defined Channel Sounder for Industrial Environments with Fast Time Variance}}}, doi = {{10.1109/iswcs.2018.8491207}}, year = {{2018}}, }