@book{48384, author = {{Wessel, Lena}}, publisher = {{Springer-Verlag}}, title = {{{Fach-und sprachintegrierte Förderung durch Darstellungsvernetzung und Scaffolding: ein Entwicklungsforschungsprojekt zum Anteilbegriff}}}, volume = {{19}}, year = {{2014}}, } @article{25164, author = {{Becker, Markus and Müller, Wolfgang and Stroop, Joachim and Kiffmeier, Ulrich}}, journal = {{Design, Automation and Test in Europe DATE, University Booth, Dresden}}, title = {{{HeroeS - A Framework for Heterogeneous Software-Intensive System Design with SystemC}}}, year = {{2014}}, } @inproceedings{47162, author = {{Fahl, Sascha and Acar, Yasemin and Perl, Henning and Smith, Matthew}}, booktitle = {{Proceedings of the 9th ACM symposium on Information, computer and communications security}}, publisher = {{ACM}}, title = {{{Why eve and mallory (also) love webmasters}}}, doi = {{10.1145/2590296.2590341}}, year = {{2014}}, } @inproceedings{25120, author = {{Mischkalla, Fabian and Müller, Wolfgang}}, booktitle = {{Embedded Computer Systems: Architectures, Modeling, and Simulation (SAMOS XIV)}}, location = {{Greece, Sep. 2014, IEEE}}, publisher = {{IEEE}}, title = {{{Architectural Low-Power Design Using Transaction-Based System Simulation}}}, year = {{2014}}, } @inproceedings{25146, author = {{Joy, M. tech. Mabel Mary and Müller, Wolfgang and Rammig, Franz-Josef}}, booktitle = {{12th IEEE International conference on Embedded Computing}}, title = {{{Source code annotated memory leak detection for soft real time embedded systems with resource constraints}}}, year = {{2014}}, } @inproceedings{25144, author = {{Mischkalla, Fabian and Müller, Wolfgang}}, booktitle = {{PATMOS 2014}}, title = {{{Advanced SoC Virtual Prototyping for System-Level Power Planning and Validation}}}, year = {{2014}}, } @inproceedings{36918, abstract = {{This paper presents an advanced eight levels spanning SystemC based virtual platform methodology and framework - referred to as HeroeS 3 - providing smooth application to platform mapping and continuous co-refinement of a virtual prototype with its physical environment model. For heterogeneity support, various SystemC extensions are combined covering continuous/discrete models of computation and different communication abstractions, such as analog mixed-signal models, abstract RTOS/HAL/middleware models, TLM bus models, and QEMU wrappers. We enable dependability assessment by Fault Effect Modeling (FEM) at the virtual prototype in order to avoid risking physical injury or damage. Also, simulation results are deterministic and can be evaluated interactively or offline. We apply FEM to both the physical environment model and the different abstractions of the virtual prototype. Currently, we focus on sensor failures and application control flow errors.}}, author = {{Becker, Markus and Kuznik, Christoph and Müller, Wolfgang}}, keywords = {{Computational modeling, Finite element analysis, Prototypes, Abstracts, Software, Fault tolerance, Fault tolerant systems}}, location = {{Berlin}}, publisher = {{IEEE}}, title = {{{Fault Effect Modeling in a Heterogeneous SystemC Based Virtual Platform Framework for Cyber Physical Systems}}}, doi = {{10.1109/ICCPS.2014.6843726}}, year = {{2014}}, } @inproceedings{36917, abstract = {{The ever-increasing complexity of heterogeneous electronic systems demand for intensified abstraction and automation efforts to improve design, verification and validation productivity, especially in earlier phases of system engineering. Within the verification activity various metrics can be applied to determine functional correctness or the overall progress. Here, a supporting verification methodology defining high-level verification planning down to the actual metric code development is essential. Moreover, an advanced assistance for the designer, such as a tooling infrastructure to automatize and accelerate the metric code implementation, is needed to minimize the influence of errorprone manual coding. In this article we present a single-source verification metric code-generation methodology for improved coverage automation. We determine (i) a suitable metric model for model-based capture of verification metrics as well as (ii) an assisted model-based processing and generation flow of the verification environment and metric skeletons. We apply our method to a SystemC case-study, in doing so, targeting metric code implementation productivity and consistency enhancement.}}, author = {{Kuznik, Christoph and Müller, Wolfgang and Defo, Gilles Bertrand}}, keywords = {{System Design, Verification}}, title = {{{An Assisted Single Source Verification Metric Model Code Generation Methodology}}}, year = {{2014}}, } @inproceedings{25166, abstract = {{Zur Sicherstellung hoher Zuverlässigkeits- und Fehlertoleranzwerte von Schaltungen und ganzen Systemen finden vermehrt Test- und Verifikationsmethoden Anwendung die einen virtuellen Prototypen (VP) des Systems bereits frühzeitig im Entwurfsablauf einem Stresstest unterziehen. Hierbei werden speziell für die Domäne relevante Fehlerinjektoren verwendet (Digital, Mixed-Signal, Mechanik) die anhand von Fehlermodellen geeignete Testfälle erzeugen und in das System über Stimuli bzw. direkt injizieren. Jede effektive Anwendung einer Methode bedingt jedoch auch das Vorhandensein einer zugrundeliegenden Methodik. In diesem Beitrag wird die System Verification Methodology (SVM) vorgestellt werden, eine universell einsetzbare und erweiterbare Infrastruktur zur Beschreibung von Testumgebungen auf Basis der SystemC Sprache und Simulationskernels.}}, author = {{Kuznik, Christoph and Müller, Wolfgang}}, booktitle = {{26. ITG / GI / GMM Workshop Testmethoden und Zuverlässigkeit von Schaltungen und Systemen}}, title = {{{Modellierung effizienter Stresstest-Umgebungen für virtuelle Prototypen mit SVM}}}, year = {{2014}}, } @inproceedings{25163, author = {{Kuznik, Christoph and Defo, Bertrand Gilles and Müller, Wolfgang}}, booktitle = {{17. Workshop Methoden und Beschreibungssprachen zur Modellierung und Verifikation von Schaltungen und Systemen (MBMV 2014) }}, title = {{{Semi-automatische Generierung von Überdeckungsmetriken mittels methodischer Verikationsplan Verarbeitung}}}, year = {{2014}}, } @article{25151, author = {{Kuznik, Christoph and Defo, Bertrand Gilles and Müller, Wolfgang}}, journal = {{Electronic System Level Synthesis Conference (ESLSyn)}}, title = {{{An Assisted Single Source Verification Metric Model Code Generation Methodology}}}, year = {{2014}}, } @inproceedings{35714, author = {{Temmen, Katrin and Nofen, Barbara and Wehebrink, Markus}}, booktitle = {{2014 IEEE Global Engineering Education Conference (EDUCON)}}, publisher = {{IEEE}}, title = {{{Lecture meets laboratory experimental experiences for large audiences: Concept and implementation}}}, doi = {{10.1109/educon.2014.6826117}}, year = {{2014}}, } @article{31296, author = {{Barkhofen, Sonja and Faure, F and Weich, Tobias}}, issn = {{0951-7715}}, journal = {{Nonlinearity}}, keywords = {{Applied Mathematics, General Physics and Astronomy, Mathematical Physics, Statistical and Nonlinear Physics}}, number = {{8}}, pages = {{1829--1858}}, publisher = {{IOP Publishing}}, title = {{{Resonance chains in open systems, generalized zeta functions and clustering of the length spectrum}}}, doi = {{10.1088/0951-7715/27/8/1829}}, volume = {{27}}, year = {{2014}}, } @article{31297, author = {{Weich, Tobias and Barkhofen, Sonja and Kuhl, U and Poli, C and Schomerus, H}}, issn = {{1367-2630}}, journal = {{New Journal of Physics}}, keywords = {{General Physics and Astronomy}}, number = {{3}}, publisher = {{IOP Publishing}}, title = {{{Formation and interaction of resonance chains in the open three-disk system}}}, doi = {{10.1088/1367-2630/16/3/033029}}, volume = {{16}}, year = {{2014}}, } @inproceedings{38470, author = {{Panhwar, M. F. and Sandel, D. and Woerdehoff, C. and Puntsri, K. and Hussin, S. and Noé, Reinhold}}, booktitle = {{2014 OPTOELECTRONICS AND COMMUNICATIONS CONFERENCE AND AUSTRALIAN CONFERENCE ON OPTICAL FIBRE TECHNOLOGY (OECC/ACOFT 2014)}}, isbn = {{978-1-922107-21-3}}, pages = {{944--946}}, title = {{{PU-CMA-QAM BASED MIMO EQUALIZATION IN DSP-ENABLED PDM-16-QAM RECEIVERS}}}, year = {{2014}}, } @inproceedings{38474, author = {{Hussin, S. and Noé, Reinhold}}, booktitle = {{2014 IEEE PHOTONICS CONFERENCE (IPC)}}, isbn = {{978-1-4577-1504-4}}, issn = {{2374-0140}}, pages = {{138--139}}, title = {{{Fiber nonlinearity Mitigation in CO-OFDM Systems using Dual Compensators}}}, year = {{2014}}, } @inproceedings{38465, author = {{Noé, Reinhold and Panhwar, M. F. and Woerdehoff, C. and Sandel, D.}}, booktitle = {{2014 PROCEEDINGS OF THE 22ND EUROPEAN SIGNAL PROCESSING CONFERENCE (EUSIPCO)}}, isbn = {{978-0-9928626-1-9}}, issn = {{2076-1465}}, pages = {{1885--1889}}, title = {{{REALTIME DIGITAL SIGNAL PROCESSING IN COHERENT OPTICAL PDM-QPSK AND PDM-16-QAM TRANSMISSION}}}, year = {{2014}}, } @inproceedings{38405, author = {{Koch, B. and Noé, Reinhold and Mirvoda, V. and Sandel, D. and Panhwar, M. F.}}, booktitle = {{2014 OPTOELECTRONICS AND COMMUNICATIONS CONFERENCE AND AUSTRALIAN CONFERENCE ON OPTICAL FIBRE TECHNOLOGY (OECC/ACOFT 2014)}}, isbn = {{978-1-922107-21-3}}, pages = {{181--183}}, title = {{{SIMPLE POLARIZATION-DEPENDENT LOSS MEASUREMENT BASED ON POLARIZATION SCRAMBLING}}}, year = {{2014}}, } @article{38401, author = {{Koch, Benjamin and Noé, Reinhold and Sandel, David and Mirvoda, Vitali}}, issn = {{1094-4087}}, journal = {{OPTICS EXPRESS}}, number = {{7}}, pages = {{8259--8276}}, title = {{{Versatile endless optical polarization controller/tracker/demultiplexer}}}, doi = {{10.1364/OE.22.008259}}, volume = {{22}}, year = {{2014}}, } @inproceedings{38392, author = {{Hussin, S. and Noé, Reinhold and Panhwar, M. F.}}, booktitle = {{2014 OPTOELECTRONICS AND COMMUNICATIONS CONFERENCE AND AUSTRALIAN CONFERENCE ON OPTICAL FIBRE TECHNOLOGY (OECC/ACOFT 2014)}}, isbn = {{978-1-922107-21-3}}, pages = {{771--773}}, title = {{{IMPROVEMENT OF RF-PILOT PHASE NOISE COMPENSATION FOR CO-OFDM TRANSMISSION SYSTEMS VIA COMMON PHASE ERROR EQUALIZER}}}, year = {{2014}}, }