@inproceedings{1001, author = {{Quynh, Thu Ngo and Karl, Holger and Wolisz, Adam and Rebensburg, Klaus}}, booktitle = {{Universal Multiservice Networks, 2002. ECUMN 2002. 2nd European Conference on}}, pages = {{116----123}}, title = {{{Using only Proportional Jitter Scheduling at the boundary of a Differentiated Service Network: simple and efficient}}}, year = {{2002}}, } @inproceedings{1009, author = {{Sroka, Steffen and Karl, Holger}}, booktitle = {{2nd International OMNeT++ Workshop, Berlin, Germany}}, title = {{{Using akaroa2 with omnet++}}}, year = {{2002}}, } @article{1014, author = {{Ngo-Quynh, Thu and Karl, Holger and Wolisz, Adam and Rebensburg, Klaus}}, journal = {{Proceedings of IST mobile communication and wireless telecommunications summit, Thessaloniki, Greece}}, title = {{{New scheduling algorithm for providing proportional jitter in differentiated services network}}}, year = {{2002}}, } @inproceedings{1020, author = {{Aguiar, A and Karl, Holger and Wolisz, Adam}}, booktitle = {{Proc. of 1st Intl. Conf. on Mobile and Ubiquitous Multimedia}}, pages = {{21----33}}, title = {{{Effects of prediction inaccuracy on the performance of channelstate-aware link layer schedulers}}}, year = {{2002}}, } @inproceedings{13611, author = {{Walder, Herbert and Platzner, Marco}}, booktitle = {{Proceedings of the 2nd International Conference on Engineering of Reconfigurable Systems and Algorithms (ERSA)}}, pages = {{24--30}}, publisher = {{CSREA Press}}, title = {{{Non-preemptive Multitasking on FPGAs: Task Placement and Footprint Transform}}}, year = {{2002}}, } @inbook{34447, abstract = {{The Object Constraint Language (OCL) was introduced to support the specification of constraints for UML diagrams and is mainly used to formulate invariants and operation pre- and postconditions. Though OCL is also applied in behavioral diagrams, e.g., as guards for state transitions, it is currently not possible to specify constraints concerning the dynamic behavior and timing properties of such diagrams. This article discusses OCL’s application for the dynamic behavior of UML Statechart diagrams and presents an OCL extension for specification of state-oriented time-bounded constraints.We introduce operations to extract state configurations from diagrams and define additional predicates over states and state configurations. The semantics of our OCL extension is given by employing time-bounded Computational Tree Logic (CTL) formulae. An example of a flexible manufacturing system with automated guided vehicles demonstrates the application of our extension.}}, author = {{Flake, Stephan and Müller, Wolfgang}}, booktitle = {{Advances in Object Modelling with the OCL}}, editor = {{Clark, T. and Warmer, J.}}, isbn = {{978-3-540-45669-8}}, keywords = {{Model Check Temporal Logic Object Constraint Language Execution Path Kripke Structure}}, pages = {{150 -- 171}}, publisher = {{Springer-Verlag}}, title = {{{An OCL Extension for Real-Time Constraints}}}, doi = {{10.1007/3-540-45669-4_8}}, year = {{2002}}, } @article{34576, author = {{Eikerling, H. J. and Müller, Wolfgang and Wegener, J.}}, journal = {{it+ti}}, pages = {{128--136}}, publisher = {{Oldenbourg Verlag}}, title = {{{Werkzeugintegration und -verwaltung in heterogenen Computernetzwerken}}}, year = {{2002}}, } @inproceedings{3041, author = {{Blömer, Johannes}}, booktitle = {{[1991] Proceedings 32nd Annual Symposium of Foundations of Computer Science}}, isbn = {{0818624450}}, publisher = {{IEEE Comput. Soc. Press}}, title = {{{Computing sums of radicals in polynomial time}}}, doi = {{10.1109/sfcs.1991.185434}}, year = {{2002}}, } @article{35857, author = {{Blömer, J.}}, issn = {{0178-4617}}, journal = {{Algorithmica}}, keywords = {{Applied Mathematics, Computer Science Applications, General Computer Science}}, number = {{1}}, pages = {{2--15}}, publisher = {{Springer Science and Business Media LLC}}, title = {{{Denesting by Bounded Degree Radicals}}}, doi = {{10.1007/s004530010028}}, volume = {{28}}, year = {{2002}}, } @misc{47698, author = {{Fricke, Birgitta}}, keywords = {{Diplomarbeit}}, title = {{{Construction of Pseudorandom Functions}}}, year = {{2002}}, } @misc{47697, author = {{Deveci, Deniz}}, keywords = {{Diplomarbeit}}, title = {{{Evaluierung und Implementierung eines vollständig verteilten RSA-Kryptographiesystems}}}, year = {{2002}}, } @misc{47699, author = {{Helbich, Anke}}, keywords = {{Diplomarbeit}}, title = {{{The Weil-Pairing and Signature Schemes in Elliptic Curve Cryptography}}}, year = {{2002}}, } @misc{47700, author = {{Schepers, Daniel}}, keywords = {{Diplomarbeit}}, title = {{{Timing Attacks for Cryptosystems based on Elliptic Curves}}}, year = {{2002}}, } @misc{47633, author = {{Hoppe, Ulrich}}, title = {{{Implementierung und Evaluation eines MDS-Blockcodes mit unabhängigen Paritätssymbolen}}}, year = {{2002}}, } @inproceedings{39371, abstract = {{With the increasing availability of various web-enabled mobile devices, content has to be effectively adapted to their different limitations. So, web content need rearrangement, i.e., a transcoding, to better fit on small displays when, for instance, layout specific HTML structures like tables and frames are used. In this article, we present a description language to define generic rules for this purpose and introduce RDL/TT (Rule Description Language for Tree Transformation). RDL/TT specifies sets of transcoding functions generic to user and hardware profiles. A Java-oriented syntax is used to describe the transcoding functions which operate on the DOM (Document Object Model) tree representation of an HTML or XML document.}}, author = {{Schäfer, Robbie and Dangberg, Andreas and Müller, Wolfgang}}, booktitle = {{Proceedings of the VHE Workshop}}, title = {{{RDL/TT - A Description Language for Profile-Dependent Transcoding of XML Documents}}}, year = {{2002}}, } @inproceedings{39370, abstract = {{Within this paper we propose architecture ideas of a distributed Video on Demand network which base on peer to peer technology. Each peer offers video streams to other peers and may receive a video stream from another peer simultaneously. This results in an optimization problem depending on different factors which we approximate with the help of an simulation environment. Our approach bases on a peer to peer framework by Sun called Project JXTA which provides a set of protocols for P2P applications.}}, author = {{Loeser, Chris and Altenbernd, Peter and Ditze, Michael and Müller, Wolfgang}}, booktitle = {{Proceedings of the Intl. Workshop on Real-Time LANs in the Internet Age (RTLIA 2002)}}, title = {{{Distributed Video-on-Demand Services on Peer to Peer Basis}}}, year = {{2002}}, } @inproceedings{39378, author = {{Schäfer, Robbie and Müller, Wolfgang and Dangberg, Andreas}}, booktitle = {{Proceedings of the HICSS-35}}, title = {{{Fuzzy Rules for the Transcoding of HTML Files}}}, year = {{2002}}, } @inproceedings{39398, abstract = {{This article presents a UML profile for an OCL extension that enables modelers to specify behavioral, state-oriented real-time constraints in OCL. In order to perform a seamless integration into the upcoming UML2.0 standard, we take the latest OCL2.0 metamodel proposal by Warmer et al. [22] as a basis. A formal semantics of our temporal OCL extension is given by a mapping to time-annotated temporal logics formulae. To give an example of the applicability of our extension, we consider a modeling approach for manufacturing systems called MFERT. We present a corresponding UML profile for that approach and combine both profiles for formal verification by real-time model checking.}}, author = {{Flake, Stephan and Müller, Wolfgang}}, booktitle = {{Proceedings of the UML 2002 - The Unified Modeling Language}}, publisher = {{Springer-Verlag}}, title = {{{A UML Profile for Real-Time Constraints with the OCL}}}, year = {{2002}}, } @inproceedings{39393, author = {{Dangelmeier, Wilhelm and Darnedde, C. and Flake, Stephan and Müller, Wolfgang and Pape, U.}}, title = {{{Graphische Spezifikation und Echtzeitverifikation von Produktionsautomatisierungssystemen}}}, year = {{2002}}, } @inproceedings{39382, abstract = {{We present a rigorous but transparent semantics definition of the SpecC language that covers the execution of SpecC behaviors and their interaction with the kernel process. The semantics include wait, wait for, par, and try statements as they are introduced in SpecC. We present our definition in form of distributed abstract state machine (ASM) rules strictly following the lines of the SpecC Language Reference Manual. We mainly see our formal semantics in three application areas. First, it is a concise, unambiguous description for documentation and standardization. Second, it applies as a high-level, pseudo code-oriented specification for the implementation of a SpecC simulator. Finally, it is a first step for SpecC synthesis in order to identify similar concepts with other languages like VHDL and SystemC for the definition of common patterns and language subsets.}}, author = {{Müller, Wolfgang and Dömer, Rainer and Gerstlauer, Andreas}}, booktitle = {{Proceedings of the ISSS02}}, isbn = {{1-58113-576-9}}, keywords = {{Standardization, Kernel, Permission, Formal verification, Logic functions, Documentation, Reasoning about programs, Specification languages, Formal specifications, Software systems}}, title = {{{The Formal Execution Semantics of SpecC}}}, doi = {{10.1145/581199.581234 }}, year = {{2002}}, }