Prof. Dr. techn.

Wolfgang M. Rucker

Institute of Smart Sensors
Theory of Electrical Engineering

Contact

+49 711 685 67270
+49 711 685 67222

Pfaffenwaldring 47
70569 Stuttgart
Deutschland
Room: 4.112

Journals, conferences, and books:
  1. 2017

    1. S. Grabmaier, M. Jüttner, and W. M. Rucker, “Coupling of Finite Element Method and Integral Formulation for Vector Helmholtz Equation,” in ISTET, Illmenau, 2017.
    2. M. Ostroushko, A. Buchau, and W. M. Rucker, “Design and simulation of the electromagnetic heating of a biological tissue,” COMPEL, vol. 36, no. 2, pp. 408–416, 2017.
    3. M. Jüttner et al., “A Distributed Method for Transient Simulations that Dynamically Considers Suplementary Results from Autonomous Software Agents,” in ISTET, Illmenau, 2017.
    4. M. Jüttner, S. Grabmaier, D. Vögeli, W. M. Rucker, and P. Göhner, “Coupled Multiphysics Problems as Market Place for Competing Autonomous Software Agents,” IEEE Transactions on Magnetics, vol. 53, no. 6, 2017.
  2. 2016

    1. H. Li and W. M. Rucker, “An Accurate and Efficient Hybrid Method for the Calculation of the Equivalent Capacitance of an Arbitrary-Shaped Coil,” IEEE Transactions on Magnetics, vol. 52, no. 3, 2016.
    2. M. Ostroushko, A. Buchau, and W. M. Rucker, “Design and Simulation of the Electromagnetic Heating of a Biological Tissue,” in International Conference HES, Heating by Electromagnetic Sources, Padua, Italy, 2016.
    3. S. Grabmaier, H. Li, M. Jüttner, and W. M. Rucker, “Efficient Magnetic Field Calculation based on a novel Domain Decomposition Approach,” in 17th International IGTE Symposium, Graz, Austria, 2016, pp. 102–108.
    4. M. Wick, M. Jüttner, and W. M. Rucker, “Fourier Transform based Analysis of Harmonic Nonlinear Magnetic Fields,” in 10th International Symposium on Electric and Magnetic Fields, Lyon, France, 2016.
    5. H. Li and W. M. Rucker, “A Hybrid Method for the Calculation of the Inductances of Coils with and without deformed Turns,” COMPEL, vol. 35, no. 4, 2016.
  3. 2015

    1. A. Buchau and W. M. Rucker, “Feasibility of a meshfree post-processing for boundary element methods,” in Boundary Elements and Other Mesh Reduction Methods XXXVIII, A. H.-D. Cheng and C. A. Brebbia, Eds. WIT Press, 2015, pp. 327–338.
    2. A. Buchau and W. M. Rucker, “Meshfree computation of field lines across multiple domains using fast boundary element methods,” IEEE Transactions on Magnetics, 2015.
    3. H. Li, R. Banucu, A. Buchau, N. Klaas, and W. M. Rucker, “Optimisation of a concentration measurement sensor for nano sized zero Optimisation of a concentration measurement sensor for nano sized zero valent iron using numerical simulation,” IET Science, Measurement and Technology, 2015.
    4. A. Buchau and W. M. Rucker, “A meshfree isovalue search method for boundary element methods,” in COMPUMAG 2015, Montreal, 2015.
  4. 2014

    1. M. Jüttner, A. Buchau, D. Vögeli, W. M. Rucker, and P. Göhner, “Iterative Software Agent Based Solution of Multiphysics Problems,” in Scientific Computing in Electrical Engineering SCEE, Wuppertal, Germany, 2014, pp. 32–33.
    2. A. Buchau and W. M. Rucker, “Meshfree computation of field lines across multiple domains using fast boundary element methods,” in 16th Biennial IEEE Conference on Electromagnetic Field Computation, Annecy, 2014.
    3. M. Jüttner, S. Grabmaier, and W. M. Rucker, “Web Based 3D Visualization for COMSOL Multiphysics,” in European COMSOL Conference 2014, Cambridge, England, 2014, pp. 1–5.
    4. M. Jüttner, A. Buchau, and W. M. Rucker, “Software Agent Based Solution of Segregated Multiphysics Problems with Varying Study Types,” in The 12th International Workshop on Finite Elements for Microwave Engineering - FEM2014, Chengdu, China, 2014, p. 65.
    5. A. Buchau and W. M. Rucker, “The meshfree computation of stationary electric current densities in complex shaped conductors using 3D boundary element methods,” in Boundary Elements and Other Mesh Reduction Methods XXXVII, C. Brebbia and A. Cheng, Eds. WIT Press, 2014, pp. 121–133.
    6. M. Jüttner, A. Buchau, A. Faul, W. M. Rucker, and P. Göhner, “Segregated Parallel and Distributed Solution of Multiphysics Problems using Software Agents,” in 16th Biennial IEEE Conference on Electromagnetic Field Computation, Annecy, France, 2014.
  5. 2013

    1. R. Banucu, C. Scheiblich, J. Albert, V. Reinauer, and W. M. Rucker, “Efficient Compression of 3-D Eddy Current Problems with Integral Formulations,” IEEE Transactions on Magnetics, vol. 49, no. 5, pp. 1625–1628, 2013.
    2. M. Jüttner, A. Buchau, M. Rauscher, W. M. Rucker, and P. Göhner, “Iterative Solution of Multiphysics Problems using Software Agents Designed as Physics Experts,” in International Symposium on Theoretical Electrical Engineering, Pilsen, Czech Republic, 2013, pp. 1–7.
    3. A. Buchau and W. M. Rucker, “Fast Multipole Method accelerated meshfree Post-Processing in 3D Boundary Element Methods,” in COMPUMAG 2013, Budapest, 2013.
  6. 2012

    1. V. Reinauer et al., “Object-Oriented Development of an Optimization Software in Java using Evolution Strategies,” IEEE Transactions on Magnetics, vol. 48, no. 2, pp. 603–606, 2012.
    2. J. Albert, R. Banucu, V. Reinauer, C. Scheiblich, and W. M. Rucker, “Comparison of a Direct and a Vector Potential Integral Equation Method for the Computation of Eddy Currents,” IEEE Transactions on Magnetics, vol. 48, no. 2, pp. 599–602, 2012.
    3. A. Buchau, M. Jüttner, and W. M. Rucker, “Automatic domain detection for a meshfree post-processing in boundary element methods,” in 15th International IGTE Symposium, Graz, 2012, pp. 386–391.
  7. 2011

    1. C. Scheiblich, R. Banucu, V. Reinauer, J. Albert, and W. M. Rucker, “Parallel Hierarchical Block Wavelet Compression for an Optimal Compression of 3-D BEM Problems,” IEEE Transactions on Magnetics, vol. 47, no. 5, pp. 1386–1389, 2011.
    2. R. Banucu et al., “Design and Optimization of a Contactless Magnetically Levitated Actuator for 4-Axis-Machining,” IEEE Transactions on Magnetics, vol. 47, no. 5, pp. 1050–1053, 2011.
  8. 2010

    1. J. Albert, R. Banucu, V. Reinauer, C. Scheiblich, and W. M. Rucker, “Reduction of Degrees of Freedom for Reduction of Degrees of Freedom for the Computation of Eddy Current Problems,” in 14th International IGTE Symposium 2010, Graz, Austria, 2010.
    2. R. Banucu, C. Scheiblich, J. Albert, V. Reinauer, and W. M. Rucker, “Acceleration of the BWC for a 3-D BEM Problem using Wavelet Approximation Patterns,” in 14th International IGTE Symposium 2010, Graz, Austria, 2010.
    3. R. Banucu et al., “Automated Optimization in the Design Process of a Magnetically Levitated Table for Machine Tool Applications,” IEEE Transactions on Magnetics, vol. 46, no. 8, pp. 2787–2790, 2010.
    4. V. Reinauer, C. Scheiblich, R. Banucu, J. Albert, and W. M. Rucker, “Object-Oriented Design of the Zienkiewicz-Zhu Method,” in 14th International IGTE Symposium 2010, Graz, Austria, 2010.
    5. C. Scheiblich, R. Banucu, V. Reinauer, J. Albert, and W. M. Rucker, “Parallel HWC of the Radiative Heat Transfer Matrix for a FEM-BEM Coupled Electric Heating System,” in 14th International IGTE Symposium 2010, Graz, Austria, 2010.
    6. V. Reinauer, C. Scheiblich, T. Wendland, R. Banucu, and W. M. Rucker, “Object-Oriented Development and Runtime Investigation of 3-D electrostatic FEM problems in pure Java compared to C++,” in Proceedings of 14th Biennial IEEE Conference on Electromagnetic Field Computation, Chicago, USA, 2010.
    7. A. Buchau and W. M. Rucker, “Meshfree Visualization of Field Lines in 3D,” in 14th International IGTE Symposium, Graz, 2010, pp. 172–177.
  9. 2009

    1. C. Scheiblich, R. Banucu, J. Albert, V. Reinauer, and W. M. Rucker, “Hierarchical Block Wavelet Compression for BEM Problems of Arbitrary Dimension,” in 17th Conference on the Computation of Electromagnetic Fields, Florianopolis, Brazil, 2009, pp. 57–58.
    2. C. Scheiblich, V. Kolitsas, and W. M. Rucker, “Compression of the Radiative Heat Transfer BEM Matrix of an Inductive Heating System using a Block-Oriented Wavelet Transform,” IEEE Transactions on Magnetics, vol. 45, no. 3, pp. 1712–1715, 2009.
    3. J. Albert, R. Banucu, W. Hafla, and W. M. Rucker, “Simulation Based Development of a Valve Actuator for Alternative Drives using BEM-FEM Code,” IEEE Transactions on Magnetics, vol. 45, no. 3, pp. 1744–1777, 2009.
  10. 2008

    1. C. Scheiblich, V. Kolitsas, and W. M. Rucker, “Compression of the Radiative Heat Transfer BEM Matrix of an Inductive Heating System using a Block-Oriented Wavelet Transform,” in Proceedings of 13th Biennial IEEE Conference on Electromagnetic Field Computation, Greece, Athens, 2008, p. 186.
    2. W. Hafla, A. Buchau, and W. M. Rucker, “Consideration of Scalar Magnetic Hysteresis with the Integral Equation Method,” IEEE Transactions on Magnetics, vol. 44, no. 6, pp. 910–913, 2008.
    3. W. Hafla, A. Buchau, and W. M. Rucker, “Field Computation with the Integral Equation Method and Non-linear Orthotropic Materials,” in XX Symposium on Electromagnetic Phenomena in Nonlinear Circuits (EPNC 2008), Lille, 2008.
  11. 2007

    1. C. Scheiblich, K. Frenner, and W. M. Rucker, “Coupling Thermal Radiation to an Inductive Heating Computation,” in Proceedings of International Symposium on Electromagnetic Fields in Electrical Engineering - ISEF 2007, Prag, 2007, pp. 449–450.
    2. A. Buchau, W. Hafla, and W. M. Rucker, “Accuracy Investigations of Boundary Element Methods for the Solution of Laplace Equations,” IEEE Transactions on Magnetics, vol. 43, no. 4, pp. 1225–1228, 2007.
    3. A. Buchau, S. M. Tsafak, W. Hafla, and W. M. Rucker, “Parallelization of a Fast Multipole Boundary Element Method with Cluster OpenMP,” in 16th Conference on the Computation of Electromagnetic Fields Compumag 2007, Aachen, 2007, pp. 791–792.
    4. W. M. Rucker, A. Buchau, and W. Hafla, “Verschleißfreie magnetische Getriebe - Übertragung von Kräften über magnetische Felder,” Wechselwirkungen - Jahrbuch aus Lehre und Forschung der Universität Stuttgart, pp. 64–71, 2007.
  12. 2006

    1. A. Buchau, W. Hafla, and W. M. Rucker, “Analysis of electric fields and currents in printed circuit boards with boundary element methods,” in Book of Abstracts, IABEM 2006 Conference, Graz, 2006, pp. 317–320.
    2. K. Frenner, C. Scheiblich, and W. M. Rucker, “Construction and Classification of Form Functions for the Galerkin-Hodge Discretization using Group Theory,” in Proceedings of 12th International IGTE Symposium, Graz, 2006, pp. 390–393.
    3. W. Hafla, A. Buchau, W. M. Rucker, A. Weinläder, and A. Bardakcioglu, “Efficient Post-Processing with the Integral Equation Method,” in Proceedings of 12th International IGTE Symposium, Graz, 2006, pp. 428–433.
    4. C. Scheiblich, K. Frenner, and W. M. Rucker, “Computation of Radiative Heat Transfer with the Boundary Element Method Applied to Inductive Heating,” in Proceedings of 12th International IGTE Symposium, Graz, 2006, pp. 462–466.
    5. A. Buchau, W. Hafla, and W. M. Rucker, “Accuracy investigations of boundary element methods for the solution of Laplace equations,” in Digest Book of CEFC 2006, Miami, 2006, p. 18.
  13. 2005

    1. A. Buchau, W. Hafla, and W. M. Rucker, “Dual Reciprocity Method for the Solution of Electrostatic Field Problems with Inhomogeneous Dielectrics,” in COMPUMAG 2005 Proceedings, 2005.
    2. A. Buchau, W. Hafla, F. Groh, and W. M. Rucker, “Fast multipole method based solution of electrostatic and magnetostatic field problems,” Computing and Visualisation in Science, vol. 8, no. 3–4, pp. 137–144, 2005.
    3. F. Groh, D. Beck, W. Hafla, A. Buchau, and W. M. Rucker, “Calculating Exciting Fields using the Fast Multipole Method and an Integral Transformation to the Coil Surface,” IEEE Transactions on Magnetics, vol. 41, no. 5, pp. 1384–1387, 2005.
    4. W. Hafla, A. Buchau, F. Groh, and W. M. Rucker, “Efficient Integral Equation Method for the Solution of 3D Magnetostatic Problems,” IEEE Transactions on Magnetics, vol. 41, no. 5, pp. 1408–1411, 2005.
    5. F. Groh, W. Hafla, and W. M. Rucker, “Non-linear Magnetostatic Integral Equations Iteratively Solved by Minimizing an Energy-Function,” in COMPUMAG 2005 Proceedings, 2005.
  14. 2004

    1. A. Buchau, W. Hafla, and W. M. Rucker, “Fast and efficient 3D boundary element method for closed domains,” COMPEL, vol. 23, no. 4, pp. 859–865, 2004.
    2. W. Hafla, F. Groh, A. Buchau, and W. M. Rucker, “Efficient IEM Computations of Static Nonlinear Magnetic Field Problems with Higher Order Elements,” in Proceedings of the 11th International IGTE Symposium on Numerical Field Calculation in Electrical Engineering, Graz, 2004.
    3. A. Buchau, W. Hafla, F. Groh, and W. M. Rucker, “Parallelized Computation of Compressed BEM Matrices on Multiprocessor Computer Clusters,” in Proceedings of the 11th International IGTE Symposium on Numerical Field Calculation in Electrical Engineering, Graz, 2004.
    4. A. Buchau, W. Hafla, F. Groh, and W. M. Rucker, “Fast Multipole Boundary Element Method for the Solution of 3D Electrostatic Field Problems,” in Boundary Elements XXVI, C. A. Brebbia, Ed. WIT Press, 2004, pp. 369–379.
  15. 2003

    1. A. Buchau and W. M. Rucker, “Capacitance Computation of Thin Conductors with the Fast Multipole Method,” International Journal of Applied Electromagnetics and Mechanics, vol. 17, no. 1–3, pp. 75–89, 2003.
    2. A. Buchau, W. Hafla, and W. M. Rucker, “Fast and efficient 3D boundary element method for closed domains,” in Symposium Reports of the Sixth International Symposium on Electric and Magnetic Fields, Aachen, 2003, pp. 211–214.
    3. A. Buchau, W. Hafla, F. Groh, and W. M. Rucker, “Compression Techniques for Integral Equation Methods,” in Tagungsband des 48. Internationalen Wissenschaftlichen Kolloquiums, Ilmenau, 2003, pp. 337–338.
    4. A. Buchau, W. M. Rucker, O. Rain, V. Rischmüller, S. Kurz, and S. Rjasanow, “Comparison Between Different Approaches for Fast and Efficient 3D BEM Computations,” IEEE Transactions on Magnetics, vol. 39, no. 3, pp. 1107–1110, 2003.
  16. 2002

    1. A. Buchau and W. M. Rucker, “Efficient Computation of Double-Layer Potentials Using the Fast Multipole Method,” in Conference Digest of IEEE CEFC, Perugia, 2002, p. 316.
    2. A. Buchau and W. M. Rucker, “Preconditioned Fast Adaptive Multipole Boundary Element Method,” IEEE Transactions on Magnetics, vol. 38, no. 2, pp. 461–464, 2002.
    3. O. Henze and W. M. Rucker, “A new Vector Hysteresis Model,” in Proceedings of the 10th International IGTE Symposium on Numerical Field Calculation in Electrical Engineering, Graz, 2002, pp. 500–504.
    4. A. Buchau and W. M. Rucker, “Efficient Boundary Element Solutions of Electrostatic Fields Using the Fast Multipole Method,” Technical article in International Compumag Society Newsletter, vol. 9, no. 1, pp. 5–9, 2002.
  17. 2001

    1. A. Buchau, W. Rieger, and W. M. Rucker, “BEM Computations Using the Fast Multipole Method in Combination with Higher Order Elements and the Galerkin Method,” IEEE Transactions on Magnetics, vol. 37, no. 5, pp. 3181–3185, 2001.
    2. A. Buchau, W. Rieger, and W. M. Rucker, “Fast Field Computations with the Fast Multipole Method,” COMPEL, vol. 20, no. 2, pp. 547–561, 2001.
  18. 2000

    1. V. Rischmüller, S. Kurz, and W. M. Rucker, “Parallel Field Computation Based on Coupling of Differential and Integral Methods,” in Proceedings of the 9th International IGTE Symposium on Numerical Field Calculation in Electrical Engineering, Graz, 2000.
    2. A. Buchau, C. J. Huber, W. Rieger, and W. M. Rucker, “Fast BEM Computations with the Adaptive Multilevel Fast Multipole Method,” IEEE Transactions on Magnetics, vol. 36, no. 4, pp. 680–684, 2000.
    3. W. Rieger, A. Buchau, C. J. Huber, G. Lehner, and W. M. Rucker, “A New Approach to the 2D Inverse Electromagnetic Medium Scattering Problem: Reconstruction of Anisotropic Objects,” IEEE Transactions on Magnetics, vol. 36, no. 4, pp. 1106–1109, 2000.
    4. C. J. Huber, A. Buchau, W. Rieger, and W. M. Rucker, “Boundary Element Computation of Partially Coated Bodies Using Higher Order Edge Elements,” IEEE Transactions on Magnetics, vol. 36, no. 4, pp. 844–847, 2000.
    5. W. Rieger, A. Buchau, G. Lehner, and W. M. Rucker, “Direct and Inverse Electromagnetic Scattering,” in High Performance Computing in Science and Engineering ’99, E. Krause and W. Jäger, Eds. Springer, 2000, pp. 433–443.
  19. 1999

    1. C. J. Huber, W. Rieger, A. Buchau, and W. M. Rucker, “BEM-Computation of Antenna Near Field Reactions on Conducting Materials Using Curvilinear Edge Elements,” COMPEL, vol. 18, no. 3, pp. 348–360, 1999.
    2. M. Haas, W. Rieger, C. J. Huber, G. Lehner, and W. M. Rucker, “Improvement of inverse scattering results by combining TM- and TE-polarized probing waves using an iterative adaption technique,” IEEE Transactions on Magnetics, vol. 35, no. 3, pp. 1574–1577, 1999.
    3. W. Rieger, A. Buchau, M. Haas, C. J. Huber, G. Lehner, and W. M. Rucker, “2D-TE Inverse Medium Scattering: An Improved Variable Metric Method,” in IEEE Antennas and Propagation Society International Symposium Digest, Vol. 3, Orlando, 1999, pp. 2140–2143.
    4. V. Rischmüller, J. Fetzer, S. Kurz, and W. M. Rucker, “Analysis of TEAM Workshop Problem 13 Using Parallel BEM Coupled to FEM,” in Proceedings of the International TEAM Workshop, Sapporo, 1999.
    5. W. Rieger, M. Haas, C. J. Huber, G. Lehner, and W. M. Rucker, “A Novel Approach to the 2D-TM Inverse Electromagnetic Medium Scattering,” IEEE Transactions on Magnetics, vol. 35, no. 3, pp. 1566–1569, 1999.
    6. W. Rieger, A. Buchau, M. Haas, C. J. Huber, G. Lehner, and W. M. Rucker, “Image Reconstruction from Real Scattering Data,” COMPEL, vol. 18, no. 3, pp. 372–384, 1999.
    7. V. Rischmüller, J. Fetzer, S. Kurz, and W. M. Rucker, “The Solution of TEAM Problem 21 Using Domain Decomposition and Parallelization,” in Proceedings of the International TEAM Workshop, Sapporo, 1999.
  20. 1998

    1. S. Kurz, J. Fetzer, and W. M. Rucker, “Coupled BEM-FEM methods for 3D field calculations with iron saturation,” in Proc. of the 1st International Roxie Users Meeting and Workshop, Geneva, 1998, pp. 47–59.
    2. W. Rieger, A. Buchau, M. Haas, C. J. Huber, G. Lehner, and W. M. Rucker, “Image Reconstruction from Real Scattering Data,” in Proceedings of 8th International IGTE Symposium on Numerical Field Calculation in Electrical Engineering, Graz, 1998, pp. 263–268.
    3. S. Kurz, J. Fetzer, G. Lehner, and W. M. Rucker, “A novel formulation for 3D eddy current problems with moving bodies using a Lagrangian description and BEM-FEM coupling,” IEEE Transactions on Magnetics, vol. 34, pp. 3068–3073, 1998.
    4. C. J. Huber, W. Rieger, M. Haas, and W. M. Rucker, “A Boundary Element Formulation Using Higher Order Curvilinear Edge Elements,” IEEE Transactions on Magnetics, vol. 34, pp. 2441–2444, 1998.
    5. S. Kurz, J. Fetzer, G. Lehner, and W. M. Rucker, “Calculation of the eddy current distribution in a Fast-Ferrite-Tuner caused by a dynamic tuning field using BEM-FEM coupling,” in Record of the 8th Biennal IEEE Conference on Electromagnetic Field Computation, Tucson, 1998.
    6. C. J. Huber, W. Rieger, A. Buchau, and W. M. Rucker, “BEM-Computation of Antenna Near Field Reactions on Conducting Materials Using Curvilinear Edge Elements,” in Proceedings of 8th International IGTE Symposium on Numerical Field Calculation in Electrical Engineering, Graz, 1998, pp. 215–220.
  21. 1997

    1. J. Fetzer, S. Kurz, G. Lehner, and W. M. Rucker, “Some aspects of force computation using BEM-FEM coupling,” ACES Journal, vol. 12, no. 2, pp. 117–120, 1997.
    2. C. J. Huber, W. Rieger, M. Haas, and W. M. Rucker, “The Numerical Treatment of Singular Integrals in Boundary Element Calculations,” ACES Journal, vol. 12, no. 2, pp. 121–126, 1997.
    3. S. Kurz, J. Fetzer, G. Lehner, and W. M. Rucker, “Die Anwendung der BEM - FEM - Kopplungsmethode zur Behandlung dreidimensionaler nichtlinearer Abschirmungsprobleme niederfrequenter Felder am Beispiel des TEAM Problems 21,” Archiv für Elektrotechnik, vol. 80, no. 2, pp. 91–104, 1997.
    4. S. Kurz, J. Fetzer, G. Lehner, G. Lehner, and W. M. Rucker, “BEM-FEM coupling in electromechanics: A 2-d watch stepping motor driven by a thin wire coil,” ACES Journal, vol. 12, no. 2, pp. 135–139, 1997.
    5. H. Karl, J. Fetzer, S. Kurz, G. Lehner, and W. M. Rucker, “Description of TEAM workshop problem 28: An electromagnetic levitation device,” in Proceedings of the TEAM Workshop in the Sixth Round, Rio de Janeiro, 1997, pp. 48–51.
    6. J. Fetzer, S. Kurz, G. Lehner, and W. M. Rucker, “The solution of TEAM workshop problem 24 using BEM-FEM coupling,” in Proceedings of the TEAM Workshop in the Sixth Round, Rio de Janeiro, 1997, pp. 33–35.
    7. W. Rieger, M. Haas, C. J. Huber, G. Lehner, and W. M. Rucker, “Reconstruction of Inhomogeneous Lossy Dielectric Objects in One Dimension,” ACES Journal, vol. 12, no. 2, pp. 54–59, 1997.
    8. J. Fetzer, S. Kurz, G. Lehner, and W. M. Rucker, “Some aspects of magnetic force computation using BEM-FEM coupling,” ACES Journal, vol. 12, no. 2, pp. 117–120, 1997.
    9. W. Rieger, M. Haas, C. J. Huber, G. Lehner, and W. M. Rucker, “Inverse Electromagnetic Medium Scattering Using a Variable Metric Method,” in IEEE AP-S International Symposium Digest, vol. 4, 1997, pp. 2621–2624.
    10. C. J. Huber, W. M. Rucker, R. Hoschek, and K. R. Richter, “A New Method for the Numerical Calculation of Cauchy Principal Value Integrals in BEM applied to Electromagnetics,” IEEE Transactions on Magnetics, vol. 33, pp. 119–123, 1997.
    11. M. Haas, W. Rieger, W. M. Rucker, and G. Lehner, “Inverse 3D Acoustic and Electromagnetic Obstacle Scattering by Iterative Adaption,” Lecture Notes in Physics, Springer, 1997.
  22. 1996

    1. J. Fetzer, S. Kurz, G. Lehner, and W. M. Rucker, “Some aspects of force computation using BEM-FEM coupling,” in Proceedings of the 7th International IGTE Symposium on Numerical Field Calculation in Electrical Engineering, Graz, 1996, pp. 336–340.
    2. S. Kurz, J. Fetzer, G. Lehner, and W. M. Rucker, “The solution of TEAM workshop problem 10 using BEM-FEM coupling,” in Proceedings of the TEAM Workshop, Graz, 1996, pp. 31–33.
    3. M. Haas, W. Rieger, W. M. Rucker, and G. Lehner, “Inverse 3D Acoustic and Electromagnetic Obstacle Scattering by Iterative Adaption,” in Proceedings in Inverse Problems of Wave Propagation and Diffraction, Aix-les-Bains, 1996.
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