@misc{33312, abstract = {{Mechatronic systems are used more than ever in human life. They can be found in a very wide range of domain contexts, from household appliances, and cars, to medical equipment. Mechatronic systems, as a kind of embedded systems, are the tight integration of mechanical and electrical engineering, which embed software systems. Information security of mechatronic systems has not received much attention yet. However, wherever data exists, cyber attacks threaten mechatronic systems. The thesis focuses on the early design stages of the development of mechatronic systems. Model sequence diagrams (MSDs) are used to model requirements with real-time and safety properties. In this thesis, MSDs are extended such that security properties for example authenticity and privacy can be modeled and analyzed automatically.}}, author = {{Schwichtenberg, Bahar}}, keywords = {{Software Architecture, Requirements Engineering, Embedded Systems}}, title = {{{Early Prediction of Security Properties for Mechatronic Systems}}}, year = {{2015}}, } @article{11892, abstract = {{For an environment to be perceived as being smart, contextual information has to be gathered to adapt the system's behavior and its interface towards the user. Being a rich source of context information speech can be acquired unobtrusively by microphone arrays and then processed to extract information about the user and his environment. In this paper, a system for joint temporal segmentation, speaker localization, and identification is presented, which is supported by face identification from video data obtained from a steerable camera. Special attention is paid to latency aspects and online processing capabilities, as they are important for the application under investigation, namely ambient communication. It describes the vision of terminal-less, session-less and multi-modal telecommunication with remote partners, where the user can move freely within his home while the communication follows him. The speaker diarization serves as a context source, which has been integrated in a service-oriented middleware architecture and provided to the application to select the most appropriate I/O device and to steer the camera towards the speaker during ambient communication.}}, author = {{Schmalenstroeer, Joerg and Haeb-Umbach, Reinhold}}, journal = {{IEEE Journal of Selected Topics in Signal Processing}}, keywords = {{audio streaming, audio visual data streaming, context information speech, face identification, face recognition, image segmentation, middleware, multimodal telecommunication, online diarization, service oriented middleware architecture, sessionless telecommunication, software architecture, speaker identification, speaker localization, speaker recognition, steerable camera, telecommunication computing, temporal segmentation, terminal-less telecommunication, video streaming}}, number = {{5}}, pages = {{845--856}}, title = {{{Online Diarization of Streaming Audio-Visual Data for Smart Environments}}}, doi = {{10.1109/JSTSP.2010.2050519}}, volume = {{4}}, year = {{2010}}, } @inproceedings{37011, abstract = {{Safety-critical automotive systems must fulfill hard real-time constraints for reliability and safety. This paper presents a case study for the application of an AUTOSAR-based language for timing modeling and analysis. We present and apply the Timing Augmented Description Language (TADL) and demonstrate a methodology for the development of a speed-adaptive steer-by-wire system. We examine the impact of TADL and the methodology on the development process and the suitability and interoperability of the applied tools with respect to the AUTOSAR-based tool chain in the context of our case study.}}, author = {{Klobedanz, Kay and Kuznik, Christoph and Thuy, Andre and Müller, Wolfgang}}, booktitle = {{Proceedings of DATE’10, Dresden}}, keywords = {{Timing, Programming, Automotive engineering, Application software, Hardware, Computer architecture, Communication system software, Software architecture, Delay, Software standards}}, location = {{Dresden}}, publisher = {{IEEE}}, title = {{{Timing Modeling and Analysis for AUTOSAR-Based Software Development - A Case Study}}}, doi = {{10.1109/DATE.2010.5457125}}, year = {{2010}}, }