@inproceedings{20936, author = {{Löffler, Renate and Meyer, Matthias and Gottschalk, Matthias}}, booktitle = {{Proceedings of the 2010 ICSE Workshop on Software Engineering in Health Care}}, pages = {{57--67}}, publisher = {{ACM}}, title = {{{Formal Scenario-based Requirements Specification and Test Case Generation in Healthcare Applications}}}, year = {{2010}}, } @book{2096, editor = {{Krimphove, Dieter}}, publisher = {{Kohlhammer}}, title = {{{Kompass Recht: Darstellung des gesamten Deutschen Rechts in 30 Einzelbänden mit anliegender CD}}}, year = {{2010}}, } @inbook{20961, abstract = {{Self-healing promises to improve the dependability of systems. In particular safety-critical systems like automotive systems are well suited application, since safe operation is required in these systems even in case of failures. Prerequisite for the improved dependability is the correct realization of the self-healing techniques. Consequently, self-healing activities should be rigorously specified and appropriately integrated with the rest of the system. In this paper, we present an approach for designing self-healing mechanisms in automotive systems. The approach contains a construction model which consist of a structural description as well as an extensive set of constraints. The constraints specify a correct system structure and are also used in the self-healing activities. We exemplify the self-healing approach using the adaptive cruise control system of modern cars. }}, author = {{Seebach, Hella and Nafz, Florian and Holtmann, Jörg and Meyer, Jan and Tichy, Matthias and Reif, Wolfgang and Schäfer, Wilhelm}}, booktitle = {{Lecture Notes in Computer Science}}, isbn = {{9783642165757}}, issn = {{0302-9743}}, title = {{{Designing Self-healing in Automotive Systems}}}, doi = {{10.1007/978-3-642-16576-4_4}}, year = {{2010}}, } @article{20962, abstract = {{Im Bereich der eingebetteten Systeme, beispielsweise im Automobilsektor, wird heutzutage immer mehr auf eine modellbasierte Entwicklung gesetzt. Die Anforderungen an die zu entwickelnden Systeme werden dagegen aus juristischen Gründen und zwecks einer guten Verständlichkeit nach wie vor rein textuell formuliert. Ein Prosatext lässt sich allerdings wegen der Fülle von Formulierungsmöglichkeiten nicht automatisiert verarbeiten. Dies führt dazu, dass die Qualitätsanalyse der Anforderungen und der Übergang von textuellen Anforderungen zu Systemmodellen auf manuelle Weise erfolgen müssen. Dies kostet Zeit und ist fehleranfällig. In diesem Beitrag wird ein Ansatz vorgestellt, mit dem Anforderungen auf Basis von Satzmustern weiterhin textuell, aber gleichzeitig auch automatisiert verarbeitbar formuliert werden können.}}, author = {{Holtmann, Jörg}}, journal = {{OBJEKTspektrum}}, number = {{RE/2010}}, title = {{{Mit Satzmustern von textuellen Anforderungen zu Modellen}}}, year = {{2010}}, } @inproceedings{20963, abstract = {{Heutige Transportsysteme, wie z.B. Automobile sind gekennzeichnet durch eine Vielzahl von Funktionalitaet, die sehr haeufig durch Software realisiert wird. Hiermit ist eine Zunahme der Komplexitaet festzustellen. Zur Beherrschung dieser Komplexitaet und damit einhergehend die Aufteilung des Systems in verschiedene Komponenten, ist eine Gesamtmodellierung des Systems inklusive des Verhaltens unerlaesslich. Ein besonderer Augenmerk liegt auf Grund der Echtzeitsysteme in dieser Domaene dabei auf der Modellierung von Zeiten auf Systemebene. Die derzeitigen Modellierungskonzepte, wie beispielsweise die Systems Modeling Language (SysML), sind dafuer aber noch nicht ausreichend. In dem hier vorgestellten Ansatz wird eine erweiterte Systemmodellierung vorgestellt, die zusaetzlich eine formale Spezifizierung von Zeiten erlaubt. Durch diese Modellierung sind weitere Analysemethoden, wie z.B. Simulationen oder Verifikationen moeglich, die zum einen die sicherheitsrelevante Funktionalitaet sicherstellen und zum anderen die Qualitaet der Software steigern.}}, author = {{Meyer, Jan and Holtmann, Jörg and Schäfer, Wilhelm and Nickel, Ulrich A.}}, booktitle = {{Software Engineering 2010 – Workshopband (inkl. Doktorandensymposium)}}, publisher = {{Bonner Koellen Verlag}}, title = {{{Eine erweiterte Systemmodellierung zur Entwicklung von softwareintensiven Anwendungen in der Automobilindustrie}}}, volume = {{P-160}}, year = {{2010}}, } @article{21048, author = {{Söller, C. and Brecht, Benjamin and Mosley, P. J. and Zang, L. Y. and Podlipensky, A. and Joly, N. Y. and Russell, P. St. J. and Silberhorn, Christine}}, issn = {{1050-2947}}, journal = {{Physical Review A}}, title = {{{Bridging visible and telecom wavelengths with a single-mode broadband photon pair source}}}, doi = {{10.1103/physreva.81.031801}}, volume = {{81}}, year = {{2010}}, } @article{1729, author = {{Liu, Yongmin and Zentgraf, Thomas and Bartal, Guy and Zhang, Xiang}}, issn = {{1530-6984}}, journal = {{Nano Letters}}, number = {{6}}, pages = {{1991--1997}}, publisher = {{American Chemical Society (ACS)}}, title = {{{Transformational Plasmon Optics}}}, doi = {{10.1021/nl1008019}}, volume = {{10}}, year = {{2010}}, } @article{1730, author = {{Liu, Ming and Zentgraf, Thomas and Liu, Yongmin and Bartal, Guy and Zhang, Xiang}}, issn = {{1748-3387}}, journal = {{Nature Nanotechnology}}, number = {{8}}, pages = {{570--573}}, publisher = {{Springer Nature}}, title = {{{Light-driven nanoscale plasmonic motors}}}, doi = {{10.1038/nnano.2010.128}}, volume = {{5}}, year = {{2010}}, } @article{1731, author = {{Zentgraf, Thomas and Valentine, Jason and Tapia, Nicholas and Li, Jensen and Zhang, Xiang}}, issn = {{0935-9648}}, journal = {{Advanced Materials}}, number = {{23}}, pages = {{2561--2564}}, publisher = {{Wiley-Blackwell}}, title = {{{An Optical “Janus” Device for Integrated Photonics}}}, doi = {{10.1002/adma.200904139}}, volume = {{22}}, year = {{2010}}, } @article{1732, author = {{Yim, Tae-Jin and Zentgraf, Thomas and Min, Bumki and Zhang, Xiang}}, issn = {{0002-7863}}, journal = {{Journal of the American Chemical Society}}, number = {{7}}, pages = {{2154--2156}}, publisher = {{American Chemical Society (ACS)}}, title = {{{All-Liquid Photonic Microcavity Stabilized by Quantum Dots}}}, doi = {{10.1021/ja909483w}}, volume = {{132}}, year = {{2010}}, } @article{1733, author = {{Zhang, Shuang and Park, Yong-Shik and Liu, Yongmin and Zentgraf, Thomas and Zhang, Xiang}}, issn = {{1094-4087}}, journal = {{Optics Express}}, number = {{6}}, publisher = {{The Optical Society}}, title = {{{Far-field measurement of ultra-small plasmonic mode volume}}}, doi = {{10.1364/oe.18.006048}}, volume = {{18}}, year = {{2010}}, } @inproceedings{17422, abstract = {{Commercial software of material flow simulations has the ability to layout the simulated models. Arranged equipment, such as conveyors or machines, includes the need to model and determine motion paths for moving objects like forklifts or automatically guided vehicles, so that the simulation framework is able to navigate all vehicles across those motion paths. After analyzing first scenarios, the user often carries out layout changes in the simulation model, e.g. moving, adding or deleting equipment. However, those changes cause time consuming, additional modeling of the motion paths for the user. Our motion planning algorithm reduces these changes by automatically determining the motion paths for moving objects, depending on an actual model layout without colliding with other objects. The algorithm works on the basis of the virtual scene’s 3D-data used for the simulation model’s visualization. We demonstrate the technique with a multi-floor building example.}}, author = {{Fischer, Matthias and Renken, Hendrik and Laroque, Christoph and Schaumann, Guido and Dangelmaier, Wilhelm}}, booktitle = {{Proceedings of the 2010 Winter Simulation Conference}}, isbn = {{9781424498666}}, title = {{{Automated 3D-motion planning for ramps and stairs in intra-logistics material flow simulations}}}, doi = {{10.1109/wsc.2010.5678906}}, year = {{2010}}, } @techreport{17462, author = {{Gehweiler, Joachim and Meyer auf der Heide, Friedhelm and Schroeder, Ulf-Peter}}, publisher = {{Heinz Nixdorf Institut}}, title = {{{A Large-Scale Distributed Environment for Peer-to-Peer Services}}}, year = {{2010}}, } @techreport{17464, author = {{Blesa, Maria J. and Blum, Christian and de Caro, Angelo and Degener, Bastian and Kempkes, Barbara and Leone, Piere and Persiano, Giuseppe and Meyer auf der Heide, Friedhelm and Mylonas, Georgios}}, title = {{{Adapting a sensor net to the dynamic environment in a wildlife scenario - a case study}}}, year = {{2010}}, } @unpublished{17586, abstract = {{We are given a winding chain of $n$ mobile robots between two stations in the plane, each of them having a limited viewing range. It is only guaranteed that each robot can see its two neighbors in the chain. We analyze a simple and natural parallel strategy to shorten the chain in a time model where each relay is allowed to move up to a distance of $\delta$ in each time step. This model fills the gap between the previously used discrete time model and the continuous time model which was introduced recently in \cite{sirocco}. We analyze the strategy with respect to two quality measures: the number of time steps and the maximum distance to be traveled by the robots, which are the major energy consumers in this scenario. We provide asymptotically tight or almost tight bounds in this time model for both quality measures and it turns out that the best choice for $\delta$ is $\delta \in \Theta(\frac{1}{n})$, since this minimizes the number of time steps as well as the maximum traveled distance.}}, author = {{Brandes, Philipp and Degener, Bastian and Kempkes, Barbara and Meyer auf der Heide, Friedhelm}}, title = {{{Building short chains of mobile robots locally with a bounded stepwidth}}}, year = {{2010}}, } @inproceedings{17665, author = {{Bar-Yehuda, Reuven and Polevoy, Gleb and Rawitz, Dror}}, booktitle = {{DIALM-PODC}}, pages = {{33--42}}, title = {{{Bandwidth allocation in cellular networks with multiple interferences}}}, year = {{2010}}, } @inbook{17711, author = {{Claridge, Claudia and Mindt, Ilka}}, booktitle = {{Anglistentag 2009 Klagenfurt. Proceedings}}, editor = {{Helbig, Jörg and Schallegger, René}}, pages = {{1 -- 114}}, publisher = {{Wissenschaftler Verlag}}, title = {{{Beiträge der Sektion I "'Spoken' English through the Centuries." Sprachwissenschaftliche Sektion beim Anglistentag 2009 in Klagenfurt.}}}, year = {{2010}}, } @inbook{17768, author = {{Claridge, Claudia and Mindt, Ilka}}, booktitle = {{Anglistentag 2009 Klagenfurt. Proceedings}}, editor = {{Helbig, Jörg and Schallegger, René}}, pages = {{1 -- 8}}, publisher = {{Wissenschaftler Verlag}}, title = {{{Spoken English through the centuries: Introduction}}}, year = {{2010}}, } @inbook{17769, author = {{Mindt, Ilka}}, booktitle = {{Kompendium Korpuslinguistik. Eine Bestandsaufnahme aus deutsch-tschechischer Perspektive}}, editor = {{Kratochvílová, Iva and Wolf, Norbert Richard}}, pages = {{53 -- 65}}, publisher = {{Winter}}, title = {{{Methoden der Korpuslinguistik: Der korpus-basierte und der korpus-geleitete Ansatz}}}, year = {{2010}}, } @inbook{18761, author = {{Hamann, Heiko and Schmickl, Thomas and Stradner, Jürgen and Crailsheim, Karl and Levi, Paul and Kernbach, Serge}}, booktitle = {{Symbiotic Multi-Robot Organisms: Reliability, Adaptability, Evolution}}, pages = {{240----263}}, publisher = {{Springer}}, title = {{{Hormone-based Control for Multi-modular Robotics}}}, year = {{2010}}, }