@inproceedings{37037, abstract = {{Today we can identify a big gap between requirement specification and the generation of test environments. This article extends the Classification Tree Method for Embedded Systems (CTM/ES) to fill this gap by new concepts for the precise specification of stimuli for operational ranges of continuous control systems. It introduces novel means for continuous acceptance criteria definition and for functional coverage definition.}}, author = {{Krupp, Alexander and Müller, Wolfgang}}, booktitle = {{Proceedings of DATE’10}}, keywords = {{System testing, Automatic testing, Object oriented modeling, Classification tree analysis, Automotive engineering, Mathematical model, Embedded system, Control systems, Electronic equipment testing, Software testing}}, location = {{Dresden}}, publisher = {{IEEE}}, title = {{{A Systematic Approach to Combined HW/SW System Test}}}, doi = {{10.1109/DATE.2010.5457186}}, year = {{2010}}, } @inproceedings{39029, abstract = {{UML 2.0 provides a rich set of diagrams for systems documentation and specification. Much effort has been undertaken to employ different aspects of UML for multiple domains, mainly in the area of software systems. Considering the area of electronic design automation, however, we currently see only very few approaches which investigate UML for hardware design and hardware/software co-design. We present an approach for executable UML closing the gap from system specification to its model-based execution on reconfigurable hardware. For this purpose, we present our abstract execution platform (AEP), which is based on a virtual machine running an executable UML subset for embedded software and reconfigurable hardware. This subset combines UML 2.0 classes, state-machines and sequence diagrams for a complete system specification. We describe how these binary encoded UML specifications can be directly executed and give the implementation of such a virtual machine on a Virtex II FPGA. Finally, we present evaluation results comparing the AEP implementation with C code on a C167 microcontroller.}}, author = {{Schattkowsky, Tim and Müller, Wolfgang and Rettberg, Achim}}, booktitle = {{Proceedings of DATE’05}}, isbn = {{0-7695-2288-2}}, keywords = {{Hardware, Unified modeling language, Virtual machining, Object oriented modeling, Field programmable gate arrays, Java, Microcontrollers, Embedded software, Real time systems, Documentation}}, publisher = {{IEEE}}, title = {{{A Model-Based Approach for Executable Specification on Reconfigurable Hardware}}}, doi = {{10.1109/DATE.2005.20}}, year = {{2005}}, } @inproceedings{39487, abstract = {{This article introduces and discusses different innovative means for visual specification and animation of complex concurrent systems. It introduces the completely visual programming language Pictorial Janus (PJ) and its application in the customer-oriented design process. PJ implements a completely visual programming language with inherent animation facilities. The article outlines the transformation of purely visual PJ programs into textual imperative programming languages. The second part of the article investigates animated 3D-presentations and introduces a novel approach to an animated 3D programming language for interactive customer-oriented illustrations.}}, author = {{Geiger, Christian and Lehrenfeld, G. and Müller, Wolfgang}}, booktitle = {{Proceedings of HICSS-32}}, isbn = {{0-7695-0001-3}}, keywords = {{Animation, Computer languages, Object oriented modeling, Collaboration, Process design, Graphical user interfaces, Jacobian matrices, Standardization, Feedback, Software prototyping}}, location = {{Maui, Hawaii}}, title = {{{Visual Specification, Modeling, and Illustrations of Complex Systems}}}, doi = {{10.1109/HICSS.1999.772621}}, year = {{1999}}, }