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Ulf D. Schiller
Researcher at Clemson University
Publications - 36
Citations - 945
Ulf D. Schiller is an academic researcher from Clemson University. The author has contributed to research in topics: Lattice Boltzmann methods & Dissipative particle dynamics. The author has an hindex of 17, co-authored 33 publications receiving 857 citations. Previous affiliations of Ulf D. Schiller include Bielefeld University & Forschungszentrum Jülich.
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Statistical mechanics of the fluctuating lattice Boltzmann equation.
TL;DR: In this paper, a generalized lattice-gas model is proposed, with each velocity direction occupied by many particles, and it is shown that the most probable state of this model corresponds to the usual equilibrium distribution of the lattice Boltzmann equation.
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Construction of a Large Signature-Tagged Mini-Tn5 Transposon Library and Its Application to Mutagenesis of Sinorhizobium meliloti
Nataliya Pobigaylo,Danijel Wetter,Silke Szymczak,Ulf D. Schiller,Stefan Kurtz,Folker Meyer,Tim Wilhelm Nattkemper,Anke Becker +7 more
TL;DR: A signature-tagged transposon mutagenesis method was used that allowed analysis of the survival and competitiveness of many mutants in a single experiment and resulted in defined, nonredundant sets of signature- tagged S. meliloti mutants.
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Implicit and explicit solvent models for the simulation of a single polymer chain in solution: Lattice Boltzmann versus Brownian dynamics
TL;DR: A comparative study of two computer simulation methods to obtain static and dynamic properties of dilute polymer solutions finds Brownian dynamics is found to be much more efficient than lattice Boltzmann as long as the degree of polymerization is not excessively large.
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Analyzing the weight dynamics of recurrent learning algorithms
Ulf D. Schiller,Jochen J. Steil +1 more
TL;DR: Insight is provided into the organization and dynamics of recurrent online training algorithms by comparing real time recurrent learning (RTRL) with a new continuous-time online algorithm, which is derived in the spirit of a recent approach introduced by Atiya and Parlos (APRL), which leads to non-gradient search directions.
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Mesoscopic simulations of the counterion-induced electro-osmotic flow: a comparative study.
TL;DR: In this paper, mesoscopic simulations of counterion-induced electro-osmotic flow in different electrostatic coupling regimes were presented, and two simulation methods, dissipative particle dynamics (DPD) and coupled lattice Boltzmann/molecular dynamics (LB/MD), were compared.