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EPR-Net: constructing a non-equilibrium potential landscape via a variational force projection formulation

Yue Zhao, Wei Zhang, Tiejun Li

2024National Science Review10 citationsDOIOpen Access PDF

Abstract

We present EPR-Net, a novel and effective deep learning approach that tackles a crucial challenge in biophysics: constructing potential landscapes for high-dimensional non-equilibrium steady-state systems. EPR-Net leverages a nice mathematical fact that the desired negative potential gradient is simply the orthogonal projection of the driving force of the underlying dynamics in a weighted inner-product space. Remarkably, our loss function has an intimate connection with the steady entropy production rate (EPR), enabling simultaneous landscape construction and EPR estimation. We introduce an enhanced learning strategy for systems with small noise, and extend our framework to include dimensionality reduction and the state-dependent diffusion coefficient case in a unified fashion. Comparative evaluations on benchmark problems demonstrate the superior accuracy, effectiveness and robustness of EPR-Net compared to existing methods. We apply our approach to challenging biophysical problems, such as an eight-dimensional (8D) limit cycle and a 52D multi-stability problem, which provide accurate solutions and interesting insights on constructed landscapes. With its versatility and power, EPR-Net offers a promising solution for diverse landscape construction problems in biophysics.

Topics & Concepts

Benchmark (surveying)Computer scienceElectron paramagnetic resonanceRobustness (evolution)Dimensionality reductionMathematical optimizationStatistical physicsArtificial intelligenceMathematicsPhysicsChemistryBiochemistryGeodesyGeographyNuclear magnetic resonanceGeneModel Reduction and Neural NetworksProtein Structure and DynamicsProbabilistic and Robust Engineering Design
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