Multirate
Highly integrated electric cicuits show a phenomenon called latency. That is, a processed signal causes activity only in a small subset of the whole circuit (imagine a central processing unit), whereas the other part of the system behaves almost constant over some time - is latent. Such an electric system can be described as coupled system, where the waveforms show different time scales, also refered to as multirate.
More generally, any coupled problem formulation due to coupled physical effects, may cause a multirate problem: image the simulation of car driving on the road, there you need a model for the wheel, the chassis, the dampers, the road,... (cf. co-simulation). Again each system is covered by their own time constant, which might vary over several orders of magnitude comparing different subsystems.
Classical methods cannot exploit this multirate potential, but resolve everything on the finest scale. This causes an over sampling of the latent components. In constrast, Co-simulation or especially dedicated multirate methods are designed to use the inherent step size to resolve the time-domain behaviour of each subystem with the required accuracy. This requires a time-stepping for each.
Group members working in that field
- Andreas Bartel
- Michael Günther
Former and ongoing Projects
Cooperations
- Herbert de Gersem, K.U. Leuven, Belgium
- Jan ter Maten, TU Eindhoven and NXP, the Netherlands
Publications
- 2021
4416.
Günther, Michael; Sandu, Adrian; Schäfers, Kevin; Zanna, Antonella
Symplectic GARK methods for partitioned Hamiltonian systems
Preprint
20214415.
Günther, Michael; Sandu, Adrian; Schäfers, Kevin; Zanna, Antonella
Symplectic GARK methods for partitioned Hamiltonian systems
Preprint
20214414.
Pill, Daniela; Wiesen, Peter; Kleffmann, Jörg
Temperature dependencies of the degradation of NO, NO\(_{2}\) and HONO on a photocatalytic dispersion paint
Physical Chemistry Chemical Physics, 23 (15) :9418--9427
2021
ISSN: 1463-9076, 1463-90844413.
Teng, Long
The Heston model with time-dependent correlation driven by isospectral flows
Mathematics, 9 (9)
2021
Herausgeber: MDPI4412.
Teng, Long
The Heston model with time-dependent correlation driven by isospectral flows
Mathematics, 9 (9) :934
20214411.
Dembinski, Hans; others
The Muon Puzzle in air showers and its connection to the LHC
PoS, ICRC2021 :037
20214410.
4409.
Haussmann, N.; Zang, M.; Mease, R.; Clemens, M.; Schmuelling, B.; Bolten, Matthias
Towards real-time magnetic dosimetry simulations for inductive charging systems
COMPEL
20214408.
Haussmann, N.; Zang, M.; Mease, R.; Clemens, M.; Schmuelling, B.; Bolten, M.
Towards real-time magnetic dosimetry simulations for inductive charging systems
COMPEL
20214407.
Haussmann, N.; Zang, M.; Mease, R.; Clemens, M.; Schmuelling, B.; Bolten, M.
Towards real-time magnetic dosimetry simulations for inductive charging systems
COMPEL
20214406.
Bolten, Matthias; Doganay, O. T.; Gottschalk, H.; Klamroth, K.
Tracing locally Pareto optimal points by numerical integration
SIAM J. Control Optim., 59 (5) :3302-3328
20214405.
Bolten, M.; Doganay, O. T.; Gottschalk, H.; Klamroth, K.
Tracing locally Pareto optimal points by numerical integration
SIAM J. Control Optim., 59 (5) :3302-3328
20214404.
Bolten, M.; Doganay, O. T.; Gottschalk, H.; Klamroth, K.
Tracing locally Pareto optimal points by numerical integration
SIAM J. Control Optim., 59 (5) :3302---3328
20214403.
Dobrick, Alexander; Glück, Jochen
Uniform convergence of operator semigroups without time regularity
J. Evol. Equ., 21 (4) :5101--5134
20214402.
Edeko, Nikolai; Kreidler, Henrik
Uniform enveloping semigroupoids for groupoid actions
J. Anal. Math.
20214401.
[german] Bohrmann-Linde, Claudia; Zeller, Diana
Videos in der chemiedidaktischen Lehre - von der Rezeption zur Produktion
Band Digitalisation in Chemistry Education. Digitales Lehren und Lernen an Hochschule und Schule im Fach Chemie
Seite 59–69
Herausgeber: Amitabh Banerji, Nicole Graulich, Johannes Huwer, Waxmann. Münster
2021
59–69ISBN: 978-3-8309-4418-8
4400.
Sugiyama, M.; Schroder, J. B.; Southworth, B. S.; Friedhoff, S.
Weighted Relaxation for Multigrid Reduction in Time
20214399.
Sugiyama, M.; Schroder, J. B.; Southworth, B. S.; Friedhoff, S.
Weighted Relaxation for Multigrid Reduction in Time
20214398.
Sugiyama, M.; Schroder, J. B.; Southworth, B. S.; Friedhoff, S.
Weighted Relaxation for Multigrid Reduction in Time
20214397.
Jacob, Birgit; Laasri, Hafida
Well-posedness of infinite-dimensional non-autonomous passive boundary control systems
Evolution Equations and Control Theory, 10 (2) :385-409
2021- 2020
4396.
Slootman, Juliette; Waltz, Victoria; Yeh, C. Joshua; Baumann, Christoph; Göstl, Robert; Comtet, Jean; Creton, Costantino
Quantifying Rate- and Temperature-Dependent Molecular Damage in Elastomer Fracture
Physical Review X, 10 (4) :041045
Dezember 20204395.
[german] Zeller, Diana; Grandrath, Rebecca; Bohrmann-Linde, Claudia
Erstellung eigener digitaler Lehr- und Lerntools - Stärkung der Medienkompetenz bei Lehramtsstudierenden im Fach Chemie
Chemie & Schule, 35 (4) :17-21
Dezember 20204394.
Li, Hongyan; Fan, Jilin; Buhl, Eva Miriam; Huo, Shuaidong; Loznik, Mark; Göstl, Robert; Herrmann, Andreas
DNA hybridization as a general method to enhance the cellular uptake of nanostructures
Nanoscale, 12 (41) :21299--21305
Oktober 2020
ISSN: 2040-33724393.
Allers, Maria; Kirk, Ansgar T.; Timke, Bennet; Erdogdu, Duygu; Wissdorf, Walter; Benter, Thorsten; Zimmermann, Stefan
Negative Reactant Ion Formation in High Kinetic Energy Ion Mobility Spectrometry (HiKE-IMS)
Journal of the American Society for Mass Spectrometry, 31 (9) :1861-1874
September 20204392.
Allers, Maria; Kirk, Ansgar T.; Timke, Bennet; Erdogdu, Duygu; Wissdorf, Walter; Benter, Thorsten; Zimmermann, Stefan
Negative Reactant Ion Formation in High Kinetic Energy Ion Mobility Spectrometry (HiKE-IMS)
Journal of the American Society for Mass Spectrometry, 31 (9) :1861-1874
September 2020
