All Stories

  1. Adaptive Estimation of the Neural Activation Extent in Computational Volume Conductor Models of Deep Brain Stimulation
  2. Eigenmode computation of cavities with perturbed geometry using matrix perturbation methods applied on generalized eigenvalue problems
  3. Rayleigh–Ritz based expansion method for wakefields in dielectrically lined rectangular waveguides
  4. Effect of Tissue Heterogeneity on the Transmembrane Potential of Type-1 Spiral Ganglion Neurons: A Simulation Study
  5. Uncertainty Quantification of Oscillation Suppression During DBS in a Coupled Finite Element and Network Model
  6. Effect of Morphologic Features of Neurons on the Extracellular Electric Potential: A Simulation Study Using Cable Theory and Electro-Quasi-Static Equations
  7. Evaluation of electric field distribution in electromagnetic stimulation of human femoral head
  8. On the optimization of the hip stem for an electrostimulative hip revision system
  9. Uncertainty quantification of the optimal stimulation area in an electro-stimulative hip revision system
  10. Comparison of techniques for uncertainty quantification of superconducting radio frequency cavities
  11. Correction to “Comparison of Krylov-Type Methods for Complex Linear Systems Applied to High-Voltage Problems”
  12. Scattering parameters of the 3.9 GHz accelerating module in a free-electron laser linac: A rigorous comparison between simulations and measurements
  13. Time-Domain Absorbing Boundary Terminations for Waveguide Ports Based on State-Space Models
  14. An Automatic Pareto Classifier for the Multiobjective Optimization of an Electrostimulative Acetabular Revision System
  15. Global sensitivity analysis of the probabilistic volume of tissue activated in a volume conductor model for deep brain stimulation
  16. Some uncertainty aspects in models for neural engineering
  17. Compact Time-Domain Models of Complex RF Structures Based on the Real Eigenmodes of Segments
  18. Would an endosteal CI-electrode make sense? Comparison of the auditory nerve excitability from different stimulation sites using ESRT measurements and mathematical models
  19. Spatial variation of permittivity of an electrolyte solution in contact with a charged metal surface: a mini review
  20. Influence of Uncertainties in the Material Properties of Brain Tissue on the Probabilistic Volume of Tissue Activated
  21. Changes of the Electric Field Distribution in the Femoral Head Due to Position and Design of an Electro-Stimulating Implant
  22. Modelling and Simulation of an In-Vitro Experimental Setup to Determine Membrane Electric Properties
  23. Quantification of uncertainties in brain tissue conductivity in a heterogeneous model of deep brain stimulation using a non-intrusive projection approach
  24. Identification of widely applicable configurations for the electrostimulative total hip revision system
  25. Modeling the Field Distribution in Deep Brain Stimulation: The Influence of Anisotropy of Brain Tissue
  26. Spatial variation of permittivity of an electrolyte solution in contact with a charged metal surface: a mini review
  27. Sensitivity analysis of the field distribution in Deep Brain Stimulation with respect to the anisotropic conductivity of brain tissue
  28. A Comparison of the Hodgkin–Huxley Model and the Soliton Theory for the Action Potential in Nerves
  29. Time-Domain Field and Scattering Parameter Computation in Waveguide Structures by GPU-Accelerated Discontinuous-Galerkin Method
  30. Soliton Collision in Biomembranes and Nerves- A Stability Study
  31. Adhesion of osteoblasts to a nanorough titanium implant surface
  32. Mechanics and electrostatics of the interactions between osteoblasts and titanium surface
  33. Attachment of Rod-Like (BAR) Proteins and Membrane Shape
  34. Graduierte Forschen Für Verbesserte Elektrisch Stimulierende Implantate — Das Graduiertenkolleg Welisa an der Universität Rostock
  35. Electromechanical Basis for the Interaction Between Osteoblasts and Negatively Charged Titanium Surface
  36. Exploring the binding dynamics of BAR proteins
  37. Generalized stern models of the electric double layer considering the spatial variation of permittvity and finite size of ions in saturation regime
  38. Langevin Poisson-Boltzmann equation: point-like ions and water dipoles near a charged surface
  39. Combination of neural-mass models with anisotropic head models to simulate EEG signals
  40. A comparision of Hodgkin-Huxley and soliton neural theories
  41. An electrical double layer model with spatial variation of the permittivity
  42. Challenges in bio-electromagnetic modeling
  43. Extraction of effective permittivity and permeability of metallic powders in the microwave range
  44. Multiobjective Optimization of an Electrostimulative Acetabular Revision System
  45. Spatial Variation of Permittivity near a Charged Membrane in Contact with Electrolyte Solution
  46. Using Nudg++ to Solve Poisson’s Equation on Unstructured Grids
  47. Numerically optimized shape of directly heated electrodes for minimal temperature gradients
  48. Electrostimulation of Bone Defects in Total Hip Revision in Triple Layered Domains
  49. A New Concept of an Electrostimulative Acetabular Revision System with Patient Individual Additional Fixation
  50. Periprosthetic Fields and Currents of an Electrostimulative Acetabular Revision System
  51. A Self-Adaptive Multigrid Technique for 3-D Space Charge Calculations
  52. Performance of Multigrid in the Context of Beam Dynamics Simulations
  53. Computation of Land Mine Signatures Using Domain Decomposition With Lagrange Multipliers
  54. Simulation of slowly varying electromagnetic fields in the human body considering the anisotropy of muscle tissues
  55. Matching geometry and stimulation parameters of electrodes for deep brain stimulation experiments—Numerical considerations
  56. Coupled Calculation of Electromagnetic Fields and Mechanical Deformation
  57. Calculation of 3D Space-Charge Fields of Bunches of Charged Particles by Fast Summation
  58. Berechnung des Hochfrequenzverhaltens komplexer Strukturen mit der Methode gekoppelter Streuparameter – CSC
  59. Computation of electrostatic fields in anisotropic human tissues using the Finite Integration Technique (FIT)
  60. Computation of currents induced by ELF electric fields in anisotropic human tissues using the Finite Integration Technique (FIT)
  61. Electro-Quasistatic Simulations in Bio-Systems Engineering and Medical Engineering
  62. Integral formulation for large-scale eddy current computation of a Superconducting magnet system
  63. Choosing electrodes for deep brain stimulation experiments–electrochemical considerations
  64. Fast algorithm for transient 3D eddy-current calculations in the Wendelstein 7-X stellarator
  65. Fast Calculation of Space Charge in Beam Line Tracking by Multigrid Techniques
  66. Electro-quasistatic calculation of electric field strength on high-voltage insulators with an algebraic multigrid algorithm
  67. Algebraic multigrid for complex symmetric matrices and applications
  68. Modeling and Simulation of Electro-Quasistatic Fields
  69. Coupled Calculation of Eigenmodes
  70. CSC - A procedure for coupled S-parameter calculations
  71. Numerical Methods in Computational Electrodynamics
  72. Classical Electrodynamics
  73. Summary
  74. Scientific Computing in Electrical Engineering
  75. Introduction
  76. Applications from Electrical Engineering
  77. Numerical Treatment of Linear Systems
  78. Applications from Accelerator Physics
  79. Numerical Field Theory
  80. Frequency Domain Analysis of Waveguides and Resonators with FIT on Non-orthogonal Triangular Grids
  81. Multigrid Solvers for Poisson’s Equation in Computational Electromagnetics
  82. Frequency Domain Analysis of Waveguides and Resonators With Fit On Non-Orthogonal Triangular Grids- Abstract
  83. Calculation of Electromagnetic Eigenmodes in Complex Structures Using Coupled S-Parameter Calculation
  84. Simulation of Electric Field Strength and Force Density on Contaminated H-V Insulators
  85. Eigenmodes of superconducting cavities calculated on APE-supercomputers
  86. An iterative algorithm to evaluate multimodal S-parameter-measurements
  87. Eigenmode calculation of complex RF-structures using S-parameters
  88. Multigrid Algorithms for the Tracking of Electron Beams
  89. Investigations of trapped higher order modes using a 36-cell test structure
  90. Finite integration technique on triangular grids revisited
  91. Finite integration technique on triangular grids revisited
  92. Eigenmodes of superconducting cavities calculated on an APE-100 supercomputer (SIMD)
  93. Comparison of Krylov-type methods for complex linear systems applied to high-voltage problems
  94. Consistent finite integration approach for coupled computation of static current distributions and electromagnetic fields
  95. Higher order modes in tapered disc-loaded structures
  96. MAFIA Version 4
  97. Simulation of low-frequency fields on high-voltage insulators with light contaminations
  98. Impedance calculation with URMEL-I using multigrid methods
  99. Waveguide calculations using established codes
  100. Triangular discretization method for the evaluation of RF-fields in cylindrically symmetric cavities
  101. Wake field calculation for the TTF-FEL bunch compressor section
  102. Computation of Land Mine Signatures using Domain Decomposition with Lagrange Multipliers
  103. The 36-cell structure-calculations and experiments
  104. Calculation of HOMs in TESLA-cavities using the coupled S-parameter calculation method
  105. RF computations with the finite integration technique (FIT) and the coupled S-parameter calculation (CSC)