scholarly journals Automated stopping criterion for spectral measurements with active learning

2021 ◽  
Vol 7 (1) ◽  
Author(s):  
Tetsuro Ueno ◽  
Hideaki Ishibashi ◽  
Hideitsu Hino ◽  
Kanta Ono
Keyword(s):  
Active Learning ◽  
Optimal Stopping ◽  
Gaussian Process Regression ◽  
Spectral Measurement ◽  
Materials Informatics ◽  
Stopping Criterion ◽  
Spectral Measurements ◽  
High Throughput Experiments ◽  
X Ray Absorption ◽  
Reduced Data

AbstractThe automated stopping of a spectral measurement with active learning is proposed. The optimal stopping of the measurement is realised with a stopping criterion based on the upper bound of the posterior average of the generalisation error of the Gaussian process regression. It is revealed that the automated stopping criterion of the spectral measurement gives an approximated X-ray absorption spectrum with sufficient accuracy and reduced data size. The proposed method is not only a proof-of-concept of the optimal stopping problem in active learning but also the key to enhancing the efficiency of spectral measurements for high-throughput experiments in the era of materials informatics.

scholarly journals A stopping criterion for active learning

2008 ◽  
Vol 22 (3) ◽  
pp. 295-312 ◽  
Author(s):  
Andreas Vlachos
Keyword(s):  
Active Learning ◽  
Stopping Criterion

scholarly journals Dark Signal Temperature Dependence Correction Method for Miniature Spectrometer Modules

2011 ◽  
Vol 2011 ◽  
pp. 1-9 ◽  
Author(s):  
Joel Kuusk
Keyword(s):  
Temperature Dependence ◽  
Correction Method ◽  
Spectral Measurement ◽  
Field Conditions ◽  
Integration Time ◽  
Laboratory Measurements ◽  
Spectral Measurements ◽  
Reasonable Range ◽  
Dark Signal

A dark signal temperature dependence correction method for miniature spectrometer modules is described in this paper. It is based on laboratory measurements of dark signal temperature dependence at few different integration times. A set of parameters are calculated which make it possible to estimate dark signal at any temperature and integration time within reasonable range. In field conditions, it is not always possible to take frequent dark signal readings during spectral measurements. If temperature is recorded during the measurement, this method can be used for estimating dark signal for every single spectral measurement. The method is validated on two different miniature spectrometers.

Uncertainty Quantification and Bayesian Active Learning for Rupture Life Prediction in Ferritic-Martensitic Steels

2021 ◽  
Author(s):  
Osman Mamun ◽  
M.F.N. Taufique ◽  
Madison Wenzlick ◽  
Jeffrey Hawk ◽  
Ram Devanathan
Keyword(s):  
Active Learning ◽  
Epistemic Uncertainty ◽  
Rupture Life ◽  
Model Performance ◽  
Gaussian Process Regression ◽  
Processing Parameters ◽  
Gradient Boosting ◽  
Martensitic Steels ◽  
Test Set ◽  
Probabilistic Machine Learning

Abstract Three probabilistic methodologies are developed for predicting the long-term creep rupture life of 9−12 𝑤𝑡% 𝐶𝑟 ferritic-martensitic steels using their chemical and processing parameters. The framework developed in this research strives to simultaneously make efficient inference along with associated risk, i.e., the uncertainty of estimation. The study highlights the limitations of applying probabilistic machine learning to model creep life and provides suggestions as to how this might be alleviated to make an efficient and accurate model with the evaluation of epistemic uncertainty of each prediction. Based on extensive experimentation, Gaussian Process Regression yielded more accurate inference (𝑃𝑒𝑎𝑟𝑠𝑜𝑛 𝑐𝑜𝑟𝑟𝑒𝑙𝑎𝑡𝑖𝑜𝑛 𝑐𝑜𝑒𝑓𝑓𝑖𝑐𝑒𝑛𝑡> 0.95 for the holdout test set) in addition to meaningful uncertainty estimate (i.e., coverage ranges from 94 – 98% for the test set) as compared to quantile regression and natural gradient boosting algorithm. Furthermore, the possibility of an active learning framework to iteratively explore the material space intelligently was demonstrated by simulating the experimental data collection process. This framework can be subsequently deployed to improve model performance or to explore new alloy domains with minimal experimental effort.

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