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
- 2017
3767.
Ehrhardt, Matthias; Günther, Michael; Pólvora, Pedro
Alternating direction explicit methods for linear, nonlinear and multi-dimensional Black-Scholes models
In Ehrhardt, Matthias and Günther, Michael and ter Maten, E. Jan W., Editor
Seite 333–371
Herausgeber: Springer Cham
2017
333–3713766.
Häring, Andreas P.; Biallas, Phillip
An Unconventional Reaction of 2,2-Diazido Acylacetates with Amines
European Journal of Organic Chemistry, 2017 (11) :1526–1539
2017
ISSN: 1099-06903765.
Zaspel, Peter
Analysis and parallelizationstrategies for Ruge-Stüben AMG on many-core processors
20173764.
Irian, Tsypin
Analytik von Mikroplastik
20173763.
Usman, Muhammad
Analytik von Mikroplastik mittels Py-GC-(TOF)MS
20173762.
Mayer, Elena
Analytische Methoden zur Strukturaufklärung von Lignin
20173761.
Fiedrich, M.; Kurtenbach, Ralf; Wiesen, Peter; Kleffmann, Jörg
Artificial O\(_{3}\) formation during fireworks
Atmospheric Environment, 165 :57-61
2017
Herausgeber: Pergamon3760.
Fiedrich, M.; Kurtenbach, Ralf; Wiesen, Peter; Kleffmann, Jörg
Artificial O\(_{3}\) formation during fireworks
Atmospheric Environment, 165 :57-61
2017
Herausgeber: Pergamon3759.
Fiedrich, M.; Kurtenbach, Ralf; Wiesen, Peter; Kleffmann, Jörg
Artificial O3 formation during fireworks
Atmospheric Environment, 165 :57-61
2017
Herausgeber: Pergamon3758.
Schulze, Britta; Paquete, Luís; Klamroth, Kathrin; Figueira, José
Bi-dimensional knapsack problems with one soft constraint
Computers & Operations Research, 78 :15-26
20173757.
Wegner, Sven-Ake
Boundary triplets for skew-symmetric operators and the generation of strongly continuous semigroups
Anal. Math., 43 (4) :657--686
20173756.
Knechtli, Francesco; Günther, Michael; Peardon, Michael
Calculating observables of quantum fields
aus SpringerBriefs in Physics
Seite 97–133
Herausgeber: Springer Dordrecht
2017
97–1333755.
Knechtli, Francesco; Günther, Michael; Peardon, Michael
Calculating observables of quantum fields
aus SpringerBriefs in Physics
Seite 97–133
Herausgeber: Springer Dordrecht
2017
97–1333754.
Knechtli, Francesco; Günther, Michael; Peardon, Michael
Calculating Observables of Quantum Fields
Lattice Quantum Chromodynamics: Practical Essentials :97--133
Oktober 2017
Herausgeber: Springer Netherlands3753.
Bierstedt, Andreas; Kersten, Hendrik; Glaus, Reto; Gornushkin, Igor; Panne, Ulrich; Riedel, Jens
Characterization of an Airborne Laser-Spark Ion Source for Ambient Mass Spectrometry
Analytical Chemistry, 89 (6) :3437-3444
20173752.
Bierstedt, Andreas; Kersten, Hendrik; Glaus, Reto; Gornushkin, Igor; Panne, Ulrich; Riedel, Jens
Characterization of an Airborne Laser-Spark Ion Source for Ambient Mass Spectrometry
Analytical Chemistry, 89 (6) :3437-3444
20173751.
Bierstedt, Andreas; Kersten, Hendrik; Glaus, Reto; Gornushkin, Igor; Panne, Ulrich; Riedel, Jens
Characterization of an Airborne Laser-Spark Ion Source for Ambient Mass Spectrometry
Analytical Chemistry, 89 (6) :3437-3444
20173750.
Kröger, Simone; Hock, Kristina; Tausch, Michael W.; Anton, Michael; Bader, Angelika; Zdzieblo, Joachim
CHEM2DO-Schulversuchskoffer - ein Kooperationsprojekt von Wirtschaft, Fachdidaktik und Lehrerfortbildungszentren
CHEMKON, 24 (4) :241--245
2017
Herausgeber: Wiley3749.
Bohrmann-Linde, Claudia; Krüger, J.; Schneiderhahn, K.
Chemie 1 (Baden-Württemberg)
Herausgeber: C.C.Buchner, Bamberg
20173748.
Bohrmann-Linde, Claudia; Kröger, Simone; Siehr, I.
Chemie 2 (Berlin/Brandenburg)
Herausgeber: C.C.Buchner, Bamberg
20173747.
Tausch, Michael W.; Flint, Alfred
Chemiedidaktik 2016: Experimentell-konzeptionelle Forschung
Nachrichten aus der Chemie, 65 (3) :383--384
2017
Herausgeber: Wiley3746.
Tausch, Michael W.
Chemische Schlüsselkonzepte - Editorial
Praxis der Naturwissenschaften - Chemie in der Schule, 66 (1) :4
20173745.
Tausch, Michael W.
Chemische Schlüsselkonzepte - Netzwerk aus Leitideen für Unterricht und Lehre
Praxis der Naturwissenschaften - Chemie in der Schule, 66 (1) :5
20173744.
Biallas, Phillip; Häring, Andreas P.
Cleavage of 1,3-dicarbonyls through oxidative amidation
Organic & Biomolecular Chemistry, 15 (15) :3184–3187
2017
ISSN: 1477-05393743.
Synylo, Kateryna; Kurtenbach, Ralf; Wiesen, Peter; Zaporozhets, Oleksandr
Comparison between modelled and measured NO\(_{x}\) concentrations in aircraft plumes at Athens International Airport
International Journal of Sustainable Aviation, 3 (4) :279-296
2017
