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Dynamic particle swarm optimization of biomolecular simulation parameters with flexible objective functions

Marie Weiel, Markus Götz, André Klein, Daniel Coquelin, Ralf Floca, Alexander Schug

2021Nature Machine Intelligence34 citationsDOIOpen Access PDF

Abstract

Abstract Molecular simulations are a powerful tool to complement and interpret ambiguous experimental data on biomolecules to obtain structural models. Such data-assisted simulations often rely on parameters, the choice of which is highly non-trivial and crucial to performance. The key challenge is weighting experimental information with respect to the underlying physical model. We introduce FLAPS, a self-adapting variant of dynamic particle swarm optimization, to overcome this parameter selection problem. FLAPS is suited for the optimization of composite objective functions that depend on both the optimization parameters and additional, a priori unknown weighting parameters, which substantially influence the search-space topology. These weighting parameters are learned at runtime, yielding a dynamically evolving and iteratively refined search-space topology. As a practical example, we show how FLAPS can be used to find functional parameters for small-angle X-ray scattering-guided protein simulations.

Topics & Concepts

WeightingParticle swarm optimizationA priori and a posterioriComputer scienceComplement (music)Mathematical optimizationSwarm behaviourMulti-swarm optimizationKey (lock)Selection (genetic algorithm)Topology (electrical circuits)AlgorithmMathematicsArtificial intelligencePhysicsComputer securityCombinatoricsComplementationEpistemologyGeneAcousticsChemistryPhilosophyPhenotypeBiochemistryProtein Structure and DynamicsGenomics and Chromatin DynamicsRNA and protein synthesis mechanisms
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