Multirate Partial Differential Algebraic Equations
In radio frequency (RF) applications, electric circuits produce signals exhibiting fast oscillations, whereas the amplitude and/or frequency change slowly in time. Thus, solving a system of differential algebraic equations (DAEs), which describes the circuit's transient behaviour, becomes inefficient, since the fast rate restricts the step sizes in time. A multivariate model is able to decouple the widely separated time scales of RF signals and provides an alternative approach. Consequently, a system of DAEs changes into a system of multirate partial differential algebraic equations (MPDAEs). The determination of multivariate solutions allows for the exact reconstruction of corresponding time-dependent signals. Hence, an efficient numerical simulation is obtained by exploiting the periodicities in fast time scales. On the one hand, the simulation of enveloppe-modulated signals requires the solution of initial-boundary value problems of the MPDAEs. On the other hand, the simulation of quasiperiodic signals implies multiperiodic boundary conditions only for the MPDAEs. In case of quasiperiodic signals, a method of characteristics solves the multirate model efficiently, since the system of partial differential algebraic equations exhibits a hyperbolic structure.
Publications
- 2022
4753.
Ehrhardt, Matthias; Günther, Michael
A neural network enhanced weighted essentially non-oscillatory method for nonlinear degenerate parabolic equations
Physics of Fluids, 34 (2) :026604
2022
Herausgeber: AIP Publishing4752.
Schweitzer, Marcel
Decay bounds for Bernstein functions of Hermitian matrices with applications to the fractional graph Laplacian
Electron. Trans. Numer. Anal., 55 :438-454
20224751.
Glück, Jochen
A note on the spectrum of irreducible operators and semigroups
Proc. Amer. Math. Soc., 150 (1) :257--266
20224750.
Schweitzer, Marcel
Decay bounds for Bernstein functions of Hermitian matrices with applications to the fractional graph Laplacian
Electron. Trans. Numer. Anal., 55 :438-454
20224749.
Hypervalent Iodine-Mediated Azidation Reactions
European Journal of Organic Chemistry (34)
2022
ISSN: 1434-193X4748.
Ackermann, Julia; Kruse, Thomas; Overbeck, Ludger
Inhomogeneous affine Volterra processes
Stochastic Processes and their Applications, 150 :250–279
2022
Herausgeber: North-Holland4747.
Ackermann, Julia; Kruse, Thomas; Overbeck, Ludger
Inhomogeneous affine Volterra processes
Stochastic Processes and their Applications, 150 :250--279
2022
Herausgeber: North-Holland4746.
Ackermann, Julia; Kruse, Thomas; Overbeck, Ludger
Inhomogeneous affine Volterra processes
Stochastic Processes and their Applications, 150 :250–279
2022
Herausgeber: North-Holland4745.
Henkel, Marvin-Lucas; Kasolis, Fotios; Clemens, Markus; Günther, Michael; Schöps, Sebastian
Implicit gauging of electromagneto-quasistatic field formulations
IEEE Transactions on Magnetics, 58 (9) :1–4
2022
Herausgeber: IEEE4744.
Henkel, Marvin-Lucas; Kasolis, Fotios; Clemens, Markus; Günther, Michael; Schöps, Sebastian
Implicit gauging of electromagneto-quasistatic field formulations
IEEE Transactions on Magnetics, 58 (9) :1–4
2022
Herausgeber: IEEE4743.
Henkel, Marvin-Lucas; Kasolis, Fotios; Clemens, Markus; Günther, Michael; Schöps, Sebastian
Implicit Gauging of Electromagneto-Quasistatic Field Formulations
IEEE Transactions on Magnetics, 58 (9) :1--4
2022
Herausgeber: IEEE4742.
Nowaczyk, N.; Kienitz, J.; Acar, S. K.; Liang, Q.
How deep is your model? Network topology selection from a model validation perspective
JMI, 12 (1)
20224741.
Hosfeld, René; Jacob, Birgit; Schwenninger, Felix
Integral input-to-state stability of unbounded bilinear control systems
Math. Control Signals Systems, 34 (2) :273-295
20224740.
Nowaczyk, Nikolai; Kienitz, Jörg; Acar, Sarp Kaya; Liang, Qian
How deep is your model? Network topology selection from a model validation perspective
Journal of Mathematics in Industry, 12 (1) :1
2022
Herausgeber: Springer Verlag4739.
Muniz, Michelle; Ehrhardt, Matthias; Günther, Michael; Winkler, Renate
Higher strong order methods for linear Ito SDEs on matrix Lie groups (Jan, 10.1007/s10543-021-00905-9, 2022)
BIT Numerical Mathematics, 62 (3) :1093--1093
2022
Herausgeber: SPRINGER VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS4738.
Muniz, Michelle; Ehrhardt, Matthias; Günther, Michael; Winkler, Renate
Higher strong order methods for linear Itô SDEs on matrix Lie groups
BIT Numerical Mathematics :1--25
2022
Herausgeber: Springer Netherlands Dordrecht4737.
Muniz, Michelle; Ehrhardt, Matthias; Günther, Michael; Winkler, Renate
Higher strong order methods for linear Itô SDEs on matrix Lie groups
BIT Numerical Mathematics, 62 (3) :1095–1119
2022
Herausgeber: Springer Netherlands4736.
Muniz, Michelle; Ehrhardt, Matthias; Günther, Michael; Winkler, Renate
Higher strong order methods for linear Itô SDEs on matrix Lie groups
BIT Numerical Mathematics, 62 (3) :1095–1119
2022
Herausgeber: Springer Netherlands4735.
Muniz, Michelle; Ehrhardt, Matthias; Günther, Michael; Winkler, Renate
Higher strong order methods for linear Itô SDEs on matrix Lie groups
BIT Numerical Mathematics, 62 (3) :1095–1119
2022
Herausgeber: Springer Netherlands4734.
Burgmann, Sebastian; Krämer, Veronika; Rohde, Martin; Dues, Michael; Janoske, Uwe
Inner and outer flow of an adhering droplet in shear flow
International Journal of Multiphase Flow, 153 :104140
2022
ISSN: 0301-93224733.
Schweitzer, Marcel
Integral representations for higher-order Fréchet derivatives of matrix functions: Quadrature algorithms and new results on the level-2 condition number
20224732.
Muniz, Michelle; Ehrhardt, Matthias; Günther, Michael; Winkler, Renate
Higher Strong Order Methods for linear {Itô} {SDEs} on matrix {Lie} Groups
BIT Numer. Math.
Januar 2022
Herausgeber: Springer
ISSN: 1572-91254731.
Bartel, Andreas; Ehrhardt, Matthias
Lagrangian instabilities in thermal convection with stable temperature profiles
arXiv preprint arXiv:2205.03856
April 20224730.
[german] Tausch, Michael W.
LED statt Gasbrenner - Mehr Licht für nachhaltigen Chemieunterricht
Chemie in unserer Zeit, 56 (3/2022) :188–196
20224729.
Schweitzer, Marcel
Decay bounds for Bernstein functions of Hermitian matrices with applications to the fractional graph Laplacian
Electron. Trans. Numer. Anal., 55 :438-454
2022
