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Scientific computing in electrical engineering. Proceedings of the 5th international conference on scientific computing in electrical engineering (SCEE), Capo D’Orlando, Sicily, Italy, September 5–9, 2004. (English) Zbl 1096.00002

Mathematics in Industry 9. Berlin: Springer (ISBN 3-540-32861-0/hbk). xx, 460 p. (2006).

Show indexed articles as search result.

The articles of this volume will be reviewed individually. The SCEE conference 2002 has been reviewed (see Zbl 1046.78001).
Indexed articles:
Maffucci, A.; Miano, G., A unified approach for the analysis of networks composed of transmission lines and lumped circuits, 3-11 [Zbl 1157.78317]
Denk, G., Circuit simulation for nanoelectronics, 13-20 [Zbl 1157.78384]
Auer, Ch.; Schürrer, F., Hot-phonon effects on the transport properties of an indium phosphide \(n^{+} -n-n^{+}\) diode, 21-26 [Zbl 1157.82367]
Bartel, Andreas; Feldmann, Uwe, Modeling and simulation for thermal-electric coupling in an SOI-circuit, 27-32 [Zbl 1157.78328]
Greiff, M.; Binit Bala, U.; Mathis, W., A staggered ALE approach for coupled electromechanical systems, 33-38 [Zbl 1157.78330]
Heres, P. J.; Schilders, W. H. A., Orthogonalisation in Krylov subspace methods for model order reduction, 39-43 [Zbl 1157.78367]
Ioan, D.; Ciuprina, G.; Rădulescu, M., Algebraic sparsefied partial equivalent electric circuit (ASPEEC), 45-50 [Zbl 1157.78368]
Langemann, D., Analytical and numerical techniques for simulating a 3D rainwater droplet in a strong electric field, 51-56 [Zbl 1157.78335]
Oliveri, M. E.; Coco, S.; Gazzo, D. S. M.; Laudani, A.; Pollicino, G., 3-D FE particle based model of ion transport across ionic channels, 57-61 [Zbl 1157.78352]
Schreiber, U.; van Rienen, U., Coupled calculation of electromagnetic fields and mechanical deformation, 63-68 [Zbl 1157.78318]
de Magistris, M.; De Tommasi, L.; Maffucci, A.; Miano, G., On the formulation and lumped equivalents extraction techniques for the efficient modeling of long interconnects, 81-86 [Zbl 1157.78320]
Halfmann, T.; Wichmann, T., Symbolic methods in industrial analog circuit design, 87-92 [Zbl 1157.78385]
Knorr, S.; Günther, M., Index analysis of multirate partial differential-algebraic systems in RF-circuits, 93-99 [Zbl 1157.94378]
Pulch, R., Semidiscretisation methods for warped MPDAEs, 101-108 [Zbl 1157.78360]
Riaza, R.; Tischendorf, C., Qualitative properties of equilibria in MNA models of electrical circuits, 107-112 [Zbl 1157.78374]
Riaza, R.; Torres-Ramírez, J., State and semistate models of lumped circuits, 113-119 [Zbl 1157.94380]
Selva Soto, M., An index analysis from coupled circuit and device simulation, 121-128 [Zbl 1157.94381]
Striebel, M.; Günther, M., Multirate methods in chip design: interface treatment and multi domain extension, 129-136 [Zbl 1157.94382]
Verhoeven, A.; Beelen, T. G. J.; Hautus, M. L. J.; ter Maten, E. J. W., Digital linear control theory for automatic stepsize control, 137-142 [Zbl 1157.78370]
Verhoeven, A.; El Guennouni, A.; ter Maten, E. J. W.; Mattheij, R. M. M., A general compound multirate method for circuit simulation problems, 143-149 [Zbl 1157.78375]
Winkler, R., Stochastic differential algebraic equations in transient noise analysis, 151-156 [Zbl 1157.78372]
Rodger, D.; Lai, H. C.; Coles, P. C.; Hill-Cottingham, R. J.; Vong, P. K.; Viana, S., Finite element modelling of electrical machines and actuators, 159-168 [Zbl 1157.78338]
Burger, S.; Klose, R.; Schädle, A.; Schmidt, F.; Zschiedrich, L., Adaptive FEM solver for the computation of electromagnetic eigenmodes in 3D photonic crystal structures, 169-173 [Zbl 1157.78353]
Coco, S.; Corsaro, S.; Laudani, A.; Pollicino, G.; Dionisio, R.; Martorana, R., COLLGUN: a 3D FE simulator for the design of TWTs electron guns and multistage collectors, 175-180 [Zbl 1157.78329]
Coco, S.; Laudani, A.; Pollicino, G., A new thin-solenoid model for accurate 3-D representation of focusing axisymmetric magnetic fields in TWTs, 181-186 [Zbl 1157.78316]
Condon, M.; Brennan, C.; Dautbegovic, E., Hybridised PTD/AWE for modelling wide-band electromagnetic wave scattering, 187-192 [Zbl 1157.78321]
Hamid, A.-K.; Nasir, Q., Transverse electric plane wave scattering by two infinitely long conducting elliptic cylinders: iterative solution, 193-201 [Zbl 1157.78323]
Hebermehl, G.; Schefter, J.; Schlundt, R.; Tischler, T.; Zscheile, H.; Heinrich, W., Simulation of microwave and semiconductor laser structures including PML: computation of the eigenmode problem, the boundary value problem, and the scattering matrix, 203-213 [Zbl 1157.78366]
Kacor, P.; Raschka, D., Solving of an electric arc motion in a vacuum interrupter, 215-219 [Zbl 1157.78332]
Kroot, J. M. B., Analysis of eddy currents in a gradient coil, 221-226 [Zbl 1157.78333]
Lukáš, D., An integration of optimal topology and shape design for magnetostatics, 227-232 [Zbl 1157.78381]
Marek, M., Numerical computation of magnetic field and inductivity of power reactor with respect of real magnetic properties of iron core, 233-239 [Zbl 1157.78337]
Pöplau, G.; Potts, Daniel; van Rienen, U., Calculation of 3D space-charge fields of bunches of charged particles by fast summation, 241-246 [Zbl 1157.78314]
Weiß, B.; Bíró, O., Comparison of the \(A,V\)-formulation and Hiptmair’s smoother, 247-252 [Zbl 1157.78357]
Tijhuis, A. G.; van Beurden, M. C.; Zwamborn, A. P. M., Iterative solution of field problems with a varying physical parameter, 253-257 [Zbl 1157.78324]
Kværnø, A., Time integration methods for coupled equations, 261-269 [Zbl 1157.65412]
Alì, G.; Frosali, G.; Morandi, O., Two-band quantum models for semiconductors arising from the Bloch envelope theory, 271-276 [Zbl 1157.82406]
Anile, A. M.; Marrocco, A.; Romano, V.; Sellier, J. M., Mixed finite element numerical simulation of a 2D silicon MOSFET with the non-parabolic MEP energy-transport model, 277-282 [Zbl 1157.78307]
Anile, A. M.; Rinaudo, S.; Ciccazzo, A.; Cinnera Martino, V.; Milazzo, C.; Spinella, S., Comparison of different methodologies for parameter extraction in circuit design, 283-287 [Zbl 1157.78376]
Bilotta, E.; Campolo, R.; Pantano, P.; Stranges, F., Sound synthesis and chaotic behaviour in Chua’s oscillator, 289-294 [Zbl 1157.94377]
Carrisi, M. C.; Demontis, F.; Pennisi, S.; Scanu, A., A kinetic type extended model for polarizable and magnetizable fluids, 295-300 [Zbl 1157.78304]
Cassano, G.; de Falco, C.; Giulianetti, C.; Sacco, R., Quantum corrected drift-diffusion modeling and simulation of tunneling effects in nanoscale semiconductor devices, 301-307 [Zbl 1157.82407]
Ciccazzo, A.; Cinnera Martino, V.; Marotta, A.; Rinaudo, S., Reverse statistical modeling for analog integrated circuits, 309-315 [Zbl 1157.78364]
Ciccazzo, A.; Greco, G.; Rinaudo, S., Coupled EM & circuit simulation flow for integrated spiral inductor, 317-322 [Zbl 1157.78365]
Drago, C. R.; Anile, A. M., An optimal control approach for an energy transport model in semiconductor design, 323-330 [Zbl 1157.78309]
Galler, M.; Majorana, A.; Schürrer, F., A multigroup WENO solver for the non-stationary Boltzmann–Poisson system for semiconductor devices, 331-337 [Zbl 1157.82408]
González, P.; Carrillo, J. A.; Gámiz, F., Deterministic numerical simulation of \(1d\) kinetic descriptions of bipolar electron devices, 339-344 [Zbl 1157.78310]
Li, Y.; Wang, C.-S., A SPICE-compatible mobility function for excimer laser annealed LTPS TFT analog circuit simulation, 351-356 [Zbl 1157.78345]
Mantas, J. M.; Carrillo, J. A.; Majorana, A., Parallelization of WENO-Boltzmann schemes for kinetic descriptions of 2D semiconductor devices, 357-362 [Zbl 1157.82410]
Mascali, G.; Romano, V.; Sellier, J. M., Hole mobility in silicon semiconductors, 363-368 [Zbl 1157.82411]
Micheletti, S.; Perotto, S., Anisotropic mesh adaptivity via a dual-based a posteriori error estimation for semiconductors, 369-375 [Zbl 1157.78313]
Muscato, O., Kinetic relaxation models for the Boltzmann transport equation for silicon semiconductors, 377-382 [Zbl 1157.82412]
Romano, V.; Sellier, J. M.; Torrisi, M., Exact solutions for the drift-diffusion model of semiconductors via Lie symmetry analysis, 383-388 [Zbl 1157.78315]
Skarlatos, A.; Clemens, M.; Weiland, T., Different extrapolation strategies in implicit Newmark–Beta schemes for the solution of electromagnetic high-frequency problems, 389-395 [Zbl 1157.78369]
Alì, G.; Micheletti, S., Domain decomposition techniques and coupled PDE/ODE simulation of semiconductor devices, 407-411 [Zbl 1157.78362]
Voigtmann, S., General linear methods for nonlinear DAEs in circuit simulation, 419-424 [Zbl 1157.78371]

MSC:

00A69 General applied mathematics
00A71 General theory of mathematical modeling
00B25 Proceedings of conferences of miscellaneous specific interest

Citations:

Zbl 1046.78001
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