AI Article Synopsis
- The study presents a new hybrid machine-learning approach combining a gamma mixture and a hidden Markov model to analyze random walks in heterogeneous media using time series data from single-particle/molecule tracking.
- The method effectively identifies the number of diffusive states and their sequences from trajectory data, provided the trajectories are sufficiently extensive for frame averaging.
- Additionally, it offers a way to evaluate the suitability of modeling a medium with discrete diffusive states based on the amount of available data, and the approach is validated with experimental SPT data.
Article Abstract
We propose a novel approach to analyze random walks in heterogeneous medium using a hybrid machine-learning method based on a gamma mixture and a hidden Markov model. A gamma mixture and a hidden Markov model respectively provide the number and the most probable sequence of diffusive states from the time series position data of particles/molecules obtained by single-particle/molecule tracking (SPT/SMT) method. We evaluate the performance of our proposed method for numerically generated trajectories. It is shown that our proposed method can correctly extract the number of diffusive states when each trajectory is long enough to be frame averaged. We also indicate that our method can provide an indicator whether the assumption of a medium consisting of discrete diffusive states is appropriate or not based on the available amount of trajectory data. Then, we demonstrate an application of our method to the analysis of experimentally obtained SPT data.
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| http://dx.doi.org/10.1039/c8cp02566e | DOI Listing |
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