1. A

    1. I. Ali, S. Becker, J. Utzmann, and C.-D. Munz, “Aeroacoustic study of a forward facing step using linearized Euler equations,” Physica D: Nonlinear Phenomena, vol. 237, pp. 2184--2189, 2008.
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    3. O. Avci and W. Ehlers, “Realisation and Modelling of Geotechnical Experiments,” Proceedings in Applied Mathematics and Mechanics, vol. 8, pp. 10401--10402, 2008.
  2. B

    1. A. Bardossy and J. Li, “Geostatistical interpolation using copulas,” Water Resources Research, vol. 44, pp. 1--15, 2008.
    2. P. Bastian et al., “A Generic Grid Interface for Parallel and Adaptive Scientific Computing.  Part I: Abstract Framework,” Computing, vol. 82, no. 2--3, pp. 103--119, 2008.
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    5. S. H. M. Buijssen, H. Wobker, D. Göddeke, and S. Turek, “FEASTSolid and FEASTFlow: FEM Applications Exploiting FEAST’s  HPC Technologies,” in High Performance Computing in Science and Engineering ’08, vol. 2008, W. Nagel, D. Kröner, and M. Resch, Eds. Springer, 2008, pp. 425--440.
    6. C. Böhm, T. Raff, R. Findeisen, and F. Allgöwer, “Calculating the Terminal  Region of NMPC for Lure Systems via LMIs,” American Control Conference, vol. 0, pp. 1127--1132, 2008.
    7. C. Böhm, R. Findeisen, and F. Allgöwer, “Avoidance of poorly observable trajectories: A predictive control perspective,” Proceedings of the 17th IFAC World Congress, vol. 0, pp. 1952--1957, 2008.
  3. C

    1. J. M. Cascón, C. Kreuzer, R. H. Nochetto, and K. G. Siebert, “Quasi-Optimal Convergence Rate for an Adaptive Finite Element Method,” SIAM Journal on Numerical Analysis, vol. 46, no. 5, pp. 2524–2550, 2008.
    2. M. Chanve, T. Eissing, and F. Allgöwer, “Bistable biological systems: A characterization through local compact input-to-state stability,” IEEE Transactions on Automatic Control, vol. 53, pp. 87--100, 2008.
    3. R. M. Colombo, M. Herty, and V. Sachers, “On $2\times2$ conservation laws at a junction,” SIAM J. Math. Anal., vol. 40, no. 2, pp. 605--622, 2008.
    4. N. Currle-Linde and M. Resch, “Time features of computing components and the economic planning of resource transactions,” 9th IEEE/ACM International Conference on Grid Computing (GRID ’08), Tsukuba, Japan, vol. 0, p. 292, 2008.
  4. D

    1. A. Dedner and R. Klöfkorn, “The compact discontinuous Galerkin method for elliptic problems,” in Finite volumes for complex applications V, ISTE, London, 2008, pp. 761--776.
    2. A. Dedner, R. Klöfkorn, and D. Kröner, “Efficient higher order methods for convection dominated problems  on unstructured grids and applications,” Comput.~Tech., vol. 13, pp. 25–35, 2008.
    3. A. Dressel and C. Rohde, “A finite-volume approach to liquid-vapour fluids with phase transition,” in Finite volumes for complex applications V, ISTE, London, 2008, pp. 53--68.
    4. A. Dressel and C. Rohde, “Global existence and uniqueness of solutions for a viscoelastic two-phase  model,” Indiana Univ. Math. J., vol. 57, no. 2, pp. 717--755, 2008.
    5. M. Drohmann, B. Haasdonk, and M. Ohlberger, “Reduced Basis Method for Finite Volume Approximation of Evolution  Equations on Parametrized Geometries,” in Proceedings of ALGORITMY 2009, 2008, pp. 111--120.
    6. M. Dumbser, D. Balsara, E. F. Toro, and C.-D. Munz, “A unified framework for the construction of one-step finite volume and discontinuous Galerkin schemes on unstructured meshes,” Journal of Computational Physics, vol. 227, pp. 8209--8253, 2008.
  5. F

    1. F. Fleissner and P. Eberhard, “Parallel load balanced simulation for short range interaction particle methods with hiercharchical particle grouping based on orthogonal recursive bisection,” International Journal for Numerical Methods in Engineering, vol. 74, no. 4, pp. 531--553, 2008.
    2. S. Freiboth, H. Class, R. Helmig, T. Graf, W. Ehlers, and V. Schwarz und C, “A model for multiphase flow and transport in porous media including a phenomenological approach to account for deformation - a model concept and its validation within a code intercomparison study,” Computational Geosciences, vol. 13, no. 3, 2008.
    3. M. Fuchs, R. Raskar, H.-P. Seidel, and H. Lensch, “Towards passive 6D reflectance field displays,” ACM Transactions on Graphics, vol. 27, no. 3, pp. 87:1-87:10, 2008.
  6. G

    1. G. Gassner, F. Lörcher, and C.-D. Munz, “A discontinuous Galerkin scheme based on a space-time expansion II. Viscous flow equations in multi dimensions,” Journal of Scientific Computing, vol. 34, pp. 260--286, 2008.
    2. T. Gaugele, F. Fleissner, and P. Eberhard, “Simulation of material tests using meshfree Lagrangian particle methods,” Journal of Multi-body Dynamics, vol. 222, no. 4, pp. 327--338, 2008.
    3. M. Gauger et al., “Integrating Sensor Networks in Pervasive Computing Environments Using Symbolic Coordinates,” Proceedings of the Third International Conference on Communication System Software and Middleware (COMSWARE 2008), vol. 0, pp. 564--573, 2008.
    4. M. Gauger, O. Saukh, M. Handte, P. J. Marrón, A. Heydlauff, and K. Rothermel, “Sensor-based Clustering for Indoor Applications,” Proceedings of the 5th IEEE Communications Society Conference on Sensor, Mesh and Ad Hoc Communications and Networks (SECON 2008), vol. 0, 2008.
    5. J. Giesselmann, “Convergence Rate of Finite Volume Schemes for Hyperbolic Conservation  Laws on Riemannian Manifolds,” in Finite Volumes for Complex Applications 5, 2008.
    6. D. Göddeke et al., “Using GPUs to Improve Multigrid Solver Performance on a Cluster,” International Journal of Computational Science and Engineering, vol. 4, no. 1, pp. 36--55, 2008.
    7. D. Göddeke and R. Strzodka, “Performance and accuracy of hardware-oriented native, emulated-  and mixed-precision solvers in FEM simulations (Part 2: Double  Precision GPUs),” Fakultät für Mathematik, Technische Universität  Dortmund, 2008.
    8. P. Götz, T. Schuster, K. Frenner, S. Rafler, and W. Osten, “Normal vector method for the RCWA with automated vector field generation,” Optics Express, vol. 16, 2008.
  7. H

    1. B. Haasdonk and M. Ohlberger, “Adaptive basis enrichment for the reduced basis method applied to  finite volume schemes,” in Finite volumes for complex applications V, ISTE, London, 2008, pp. 471--478.
    2. B. Haasdonk and E. Pekalska, “Indefinite Kernel Fisher Discriminant,” in Proc. ICPR 2008, International Conference on Pattern Recognition, 2008.
    3. B. Haasdonk and M. Ohlberger, “Reduced basis method for finite volume approximations of parametrized  linear evolution equations,” ESAIM: M2AN, vol. 42, no. 2, pp. 277--302, 2008.
    4. B. Haasdonk and E. Pekalska, “Classification with Kernel Mahalanobis Distances,” in Proc. of 32nd. GfKl Conference, Advances in Data Analysis, Data Handling  and Business Intelligence, 2008.
    5. B. Haasdonk, M. Ohlberger, and G. Rozza, “A Reduced Basis Method for Evolution Schemes with Parameter-Dependent  Explicit Operators,” ETNA, Electronic Transactions on Numerical Analysis, vol. 32, pp. 145--161, 2008.
    6. J. Haink and C. Rohde, “Local discontinuous-Galerkin schemes for model problems in phase  transition theory,” Commun. Comput. Phys., vol. 4, pp. 860–893, 2008.
    7. Y. Heider, B. Markert, and W. Ehlers, “Coupled Problems of Dynamics in Materially Incompressible Saturated Porous Media,” Proceedings in Applied Mathematics and Mechanics, vol. 8, pp. 10503--10504, 2008.
    8. C.-J. Heine, “Finite element methods on unfitted meshes,” Preprint Fak. f. Math. Phys. Univ. Freiburg, no. 08–09, 2008.
    9. G. C. Hsiao and W. L. Wendland, Boundary integral equations, vol. 164. Berlin: Springer-Verlag, 2008, p. xx+618.
  8. I

    1. O. Iliev and I. Rybak, “On numerical upscaling for flows in heterogeneous porous media,” Comput. Methods Appl. Math., vol. 8, no. 1, pp. 60--76, 2008.
  9. J

    1. N. Jung, “Anwendung der Reduzierten Basis Methode auf quadratisch nichtlineare  Transportgleichungen,” 2008.
  10. K

    1. R. Klöfkorn, D. Kröner, and M. Ohlberger, “Parallel Adaptive Simulation of PEM Fuel Cells,” in Mathematics -- Key Technology for the Future, H.-J. Krebs and W. Jäger, Eds. Springer, 2008, pp. 235–249.
    2. I. Kröker, “Finite volume methods for conservation laws with noise,” in Finite volumes for complex applications V, ISTE, London, 2008, pp. 527--534.
    3. D. Köster, O. Kriessl, and K. G. Siebert, “Design of Finite Element Tools for Coupled Surface and Volume Meshes,” Numerical Mathematics: Theory, Methods and Applications, vol. 1, no. 3, pp. 245–274, 2008.
    4. M. Köster, D. Göddeke, H. Wobker, and S. Turek, “How to gain speedups of 1000 on single processors with fast FEM  solvers ---- Benchmarking numerical and computational efficiency,” Fakultät für Mathematik, TU Dortmund, 2008.
  11. L

    1. A. Lalegname, A. Sändig, and G. Sewell, “Analytical and numerical treatment of a dynamic crack model,” International Journal of Fracture, vol. 152, no. 2, pp. 97--125, 2008.
    2. B. Ludescher et al., “T2- and Diffusion-Maps Reveal Diurnal Changes of Intervertebral Disc Composition: An In Vivo MRI Study at 1.5 Tesla,” Journal of Magnetic Resonance Imaging, vol. 28, pp. 252--257, 2008.
    3. F. Lörcher, G. Gassner, and C.-D. Munz, “An explicit discontinuous Galerkin scheme with local time-stepping for general unsteady diffusion equations,” Journal of Computational Physics, vol. 227, pp. 5649--5670, 2008.
  12. M

    1. B. Markert, “A biphasic continuum approach for viscoelastic high-porosity foams: Comprehensive theory, numerics, and application,” Archives of Computational Methods in Engineering, vol. 15, no. 4, pp. 371--446, 2008.
    2. B. Markert, B. Monastyrskyy, and W. Ehlers, “Fluid penetration effects in porous media contact,” Continuum Mechanics and Thermodynamics, vol. 20, pp. 303--315, 2008.
    3. H. Minamoto, R. Seifried, P. Eberhard, and S. Kawamuraa, “EFFECTS OF STRAIN RATE DEPENDENCY OF MATERIAL PROPERTIES IN LOW VELOCITY IMPACT,” International Journal of Modern Physics B, vol. 22, p. 1165, 2008.
    4. P. Morin, K. G. Siebert, and A. Veeser, “A Basic Convergence Result for Conforming Adaptive Finite Elements,” Mathematical Models and Methods in Applied Science, vol. 18, pp. 707–737, 2008.
    5. P. Märkl and A.-M. Sändig, “Singularities of the Stokes System in Polygons,” Bericht 2008/009 des Instituts f�r Angewandte Analysis und Numerische  Simulation der Universität Stuttgart, 2008.
    6. D. Möst, W. Fichtner, M. Ragwitz, and D. Veit, New methods for energy market modelling : Proceedings of the First European Workshop on Energy Market Modelling using Agent-Based Computational Economics. KIT Scientific Publishing, 2008.
  13. N

    1. J. Niessner and S. M. Hassanizadeh, “A model for two-phase flow in porous media including fluid-fluid interfacial area,” Water Resources Research, vol. 44, 2008.
  14. P

    1. E. Pekalska and B. Haasdonk, “Kernel Quadratic Discriminant Analysis with Positive and Indefinite  Kernels,” University of M�nster, 06/08, 2008.
    2. H. Perfahl and A.-M. Sändig, “A Continuum-Mechanical Approach to Avascular Solid Tumor Growth,” Bericht 2008/001 des Instituts f�r Angewandte Analysis und Numerische  Simulation der Universität Stuttgart, 2008.
  15. R

    1. S. Randandt and O. Renn, “New emerging risks,” Risks in Modern Society, pp. 259--284, 2008.
    2. H.-U. Rempler and W. Ehlers, “Tear Propagation in Soft Hydrated Biological Tissue,” Proceedings in Applied Mathematics and Mechanics, vol. 8, pp. 10235--10236, 2008.
    3. O. Renn, Risk Governance. Coping with Uncertainty in a Complex World. Earthscan, 2008.
    4. J. M. Rieber, C. W. Scherer, and F. Allgöwer, “Robust ℓ1 performance analysis for linear systems with parametric uncertainties,” International Journal of Control, vol. 81, no. 5, pp. 851--864, 2008.
    5. C. Rohde, N. Tiemann, and W.-A. Yong, “Weak and classical solutions for a model problem in radiation hydrodynamics,” in Hyperbolic problems: theory, numerics, applications, Berlin: Springer, 2008, pp. 891--899.
    6. C. Rohde and W.-A. Yong, “Dissipative entropy and global smooth solutions in radiation hydrodynamics  and magnetohydrodynamics,” Math. Models Methods Appl. Sci., vol. 18, no. 12, pp. 2151--2174, 2008.
    7. O. Röhrle, J. B. Davidson, and A. J. Pullan, “Bridging Scales: A three-dimensional electromechanical finite element model of skeletal muscle,” SIAM Journal on Scientific Computing, vol. 30, no. 6, pp. 2882--2904, 2008.
    8. F. Rösch and H.-R. Trebin, “Are Clusters Physical Entities?,” Z. Kristallogr., vol. 223, pp. 827--829, 2008.
    9. F. Rößler, R. Botchen, and T. Ertl, “Utilizing dynamic shader generation for GPU-based multi-volume raycasting,” IEEE Computer Graphics & Applications, vol. 28, no. 5, pp. 66--77, 2008.
  16. S

    1. J. Schlottke and B. Weigand, “Direct numerical simulation of evaporating droplets,” Journal of Computational Physics, vol. 227, no. 10, pp. 5215--5237, 2008.
    2. J. Schlottke, W. Straub, K. D. Beheng, and B. Weigand, “Numerical Investigation of Collision-Induced Breakup of Raindrops. Part I: Methodology as well as Dependencies on Collision Energy and Excentricity,” 15th International Conference on Clouds and Precipitation ICCP-2008, July 7-11, Cancun, Mexico, vol. 0, pp. 1--10, 2008.
    3. A. Schmidt, D. Kern, S. Streng, and P. Holleis, “Magic beyond the screen,” IEEE Multimedia, vol. 15, no. 4, pp. 8--13, 2008.
    4. T. Schuster, S. Rafler, K. Frenner, and W. Osten, “Influence of line edge roughness (LER) on angular resolved and on spectroscopic scatterometry,” Proc. SPIE, vol. 7155, 2008.
    5. W. Straub, J. Schlottke, K. D. Beheng, and B. Weigand, “Numerical Investigation of Collision-Induced Breakup of Raindrops. Part II: Parameterizations of Coalescence Efficiencies and Fragment Size Distributions,” 15th International Conference on Clouds and Precipitation ICCP-2008, July 7-11, Cancun, Mexico (2008), vol. 0, pp. 1--7, 2008.
  17. T

    1. S. Turek, D. Göddeke, C. Becker, S. H. M. Buijssen, and H. Wobker, “UCHPC -- Unconventional High-Performance Computing for Finite  Element Simulations,” in International Supercomputing Conference (ISC’08), 2008.
  18. V

    1. M. Vrhovnik, H. Schwarz, S. Ewen, and O. Suhre, “PGM/F: A Framework for the Optimization of Data Processing in Business Processes,” Proceedings of the 24th International Conference on Data Engineering (ICDE 2008), 2008.
    2. M. Vrhovnik, H. Schwarz, S. Radeschütz, and B. Mitschang, “An overview of SQL support in workflow products,” Proceedings of the 24th International Conference of Data Engineering, vol. 0, pp. 1287--1296, 2008.
  19. W

    1. A. Wagner and W. Ehlers, “A Porous Media Model to Describe the Behaviour of Brain Tissue,” Proceedings in Applied Mathematics and Mechanics, vol. 8, pp. 10201--10202, 2008.
    2. S. Waldherr, T. Eissing, and F. Allgöwer, “Rückkopplungen im Leben und Sterben einer Zelle: Ansätze zur systemtheoretischen Analyse,” at - Automatisierungstechnik, vol. 56, pp. 233--240, 2008.
    3. W. Weimer-Jehle, “Cross-impact balances  - Applying pair interaction systems and multi-value Kauffman nets to multidisciplinary systems analysis,” Physica A, vol. 387, pp. 3689--3700, 2008.
    4. P. Wieland, J.-S. Kim, H. Scheu, and F. Allgöwer, “On Consensus in Multi-Agent Systems with Linear High-Order Agents,” Proceedings of the 17th IFAC World Congress, pp. 1541--1546, 2008.
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