8802
2022
2022
eng
297
9
15
article
0
2022-08-15
2022-08-15
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SepFree NMF: A Toolbox for Analyzing the Kinetics of Sequential Spectroscopic Data
This work addresses the problem of determining the number of components from sequential spectroscopic data analyzed by non-negative matrix factorization without separability assumption (SepFree NMF). These data are stored in a matrix M of dimension “measured times” versus “measured wavenumbers” and can be decomposed to obtain the spectral fingerprints of the states and their evolution over time. SepFree NMF assumes a memoryless (Markovian) process to underline the dynamics and decomposes M so that M=WH, with W representing the components’ fingerprints and H their kinetics. However, the rank of this decomposition (i.e., the number of physical states in the process) has to be guessed from pre-existing knowledge on the observed process. We propose a measure for determining the number of components with the computation of the minimal memory effect resulting from the decomposition; by quantifying how much the obtained factorization is deviating from the Markovian property, we are able to score factorizations of a different number of components. In this way, we estimate the number of different entities which contribute to the observed system, and we can extract kinetic information without knowing the characteristic spectra of the single components. This manuscript provides the mathematical background as well as an analysis of computer generated and experimental sequentially measured Raman spectra.
Algorithms
10.3390/a15090297
yes
2022-08-15
publish
Renata Sechi
Renata Sechi
Konstantin Fackeldey
Surahit Chewle
Marcus Weber
Fackeldey, Konstantin
Weber, Marcus
MathPlusAA1-1
Modeling and Simulation of Complex Processes
Chewle, Surahit
MathPlusAA1-15