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Set-Free Markov State Model Building (2017)

Weber, Marcus (PD Dr.) ; Fackeldey, Konstantin (Dr.) ; Schütte, Christof (Prof. Dr.)

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Publication Date: 2023-11-03

Language: English

Type: article , doc-type:article

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Finding Metastabilities in Reversible Markov Chains based on Incomplete Sampling: Case of Molecular Simulation (2017)

Fackeldey, Konstantin ; Niknejad, Amir ; Weber, Marcus

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Publication Date: 2023-11-03

Language: English

Type: article , doc-type:article

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Set-free Markov State Building (2017)

Weber, Marcus ; Fackeldey, Konstantin ; Schütte, Christof

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Publication Date: 2023-11-03

Description: Molecular dynamics (MD) simulations face challenging problems since the timescales of interest often are much longer than what is possible to simulate and even if sufficiently long simulation are possible the complex nature of the resulting simulation data makes interpretation difficult. Markov State Models (MSMs) help to overcome these problems by making experimentally relevant timescales accessible via coarse grained representations that also allows for convenient interpretation. However, standard set-based MSMs exhibit some caveats limiting their approximation quality and statistical significance. One of the main caveats results from the fact that typical MD trajectories repeatedly re-cross the boundary between the sets used to build the MSM which causes statistical bias in estimating the transition probabilities between these sets. In this article, we present a set-free approach to MSM building utilizing smooth overlapping ansatz functions instead of sets and an adaptive refinement approach. This kind of meshless discretization helps to overcome the recrossing problem and yields an adaptive refinement procedure that allows to improve the quality of the model while exploring state space and inserting new ansatz functions into the MSM.

Language: English

Type: reportzib , doc-type:preprint

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From Metastable to Coherent Sets - time-discretization schemes (2017)

Fackeldey, Konstantin ; Koltai, Péter ; Névir, Peter ; [et al.]

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Publication Date: 2023-11-03

Description: Given a time-dependent stochastic process with trajectories x(t) in a space $\Omega$, there may be sets such that the corresponding trajectories only very rarely cross the boundaries of these sets. We can analyze such a process in terms of metastability or coherence. Metastable sets M are defined in space $M\subset\Omega$, coherent sets $M(t)\subset\Omega$ are defined in space and time. Hence, if we extend the space by the time-variable t, coherent sets are metastable sets in $\Omega\times[0,\infty]$. This relation can be exploited, because there already exist spectral algorithms for the identification of metastable sets. In this article we show that these well-established spectral algorithms (like PCCA+) also identify coherent sets of non-autonomous dynamical systems. For the identification of coherent sets, one has to compute a discretization (a matrix T) of the transfer operator of the process using a space-timediscretization scheme. The article gives an overview about different time-discretization schemes and shows their applicability in two different fields of application.

Language: English

Type: reportzib , doc-type:preprint

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GenPCCA -- Markov State Models for Non-Equilibrium Steady States (2017)

Fackeldey, Konstantin ; Weber, Marcus

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Publication Date: 2023-11-03

Language: English

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Mixed-Integer Programming for Cycle Detection in Non-reversible Markov Processes (2016)

Witzig, Jakob ; Beckenbach, Isabel ; Eifler, Leon ; [et al.]

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Publication Date: 2024-01-12

Description: In this paper, we present a new, optimization-based method to exhibit cyclic behavior in non-reversible stochastic processes. While our method is general, it is strongly motivated by discrete simulations of ordinary differential equations representing non-reversible biological processes, in particular molecular simulations. Here, the discrete time steps of the simulation are often very small compared to the time scale of interest, i.e., of the whole process. In this setting, the detection of a global cyclic behavior of the process becomes difficult because transitions between individual states may appear almost reversible on the small time scale of the simulation. We address this difficulty using a mixed-integer programming model that allows us to compute a cycle of clusters with maximum net flow, i.e., large forward and small backward probability. For a synthetic genetic regulatory network consisting of a ring-oscillator with three genes, we show that this approach can detect the most productive overall cycle, outperforming classical spectral analysis methods. Our method applies to general non-equilibrium steady state systems such as catalytic reactions, for which the objective value computes the effectiveness of the catalyst.

Language: English

Type: reportzib , doc-type:preprint

Format: application/pdf

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