Supervised Factor Analysis Transfer: Calibration transfer with noise modeling and response variable integration

IF 5.6 1区化学 Q1 CHEMISTRY, ANALYTICAL Talanta Pub Date : 2024-07-22 DOI:10.1016/j.talanta.2024.126595

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Abstract

Multivariate calibration models often encounter challenges in extrapolating beyond the calibration instruments due to variations in hardware configurations, signal processing algorithms, or environmental conditions. Calibration transfer techniques have been developed to mitigate this issue. In this study, we introduce a novel methodology known as Supervised Factor Analysis Transfer (SFAT) aimed at achieving robust and interpretable calibration transfer. SFAT operates from a probabilistic framework and integrates response variables into its transfer process to effectively align data from the target instrument to that of the source instrument. Within the SFAT model, the data from the source instrument, the target instrument, and the response variables are collectively projected onto a shared set of latent variables. These latent variables serve as the conduit for information transfer between the three distinct domains, thereby facilitating effective spectra transfer. Moreover, SFAT explicitly models the noise variances associated with each variable, thereby minimizing the transfer of non-informative noise. Furthermore, we provide empirical evidence showcasing the efficacy of SFAT across three real-world datasets, demonstrating its superior performance in calibration transfer scenarios.

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监督因子分析转移：利用噪声建模和响应变量整合进行校准转移。

由于硬件配置、信号处理算法或环境条件的变化，多变量校准模型在推断校准仪器之外的情况时经常遇到挑战。为了缓解这一问题，人们开发了校准转移技术。在本研究中，我们介绍了一种称为 "监督因子分析转移"（SFAT）的新方法，旨在实现稳健且可解释的校准转移。SFAT 从概率框架出发，将响应变量整合到转移过程中，从而有效地将目标仪器的数据与源仪器的数据统一起来。在 SFAT 模型中，来自源仪器、目标仪器和响应变量的数据被共同投射到一组共享的潜在变量上。这些潜变量是三个不同领域之间信息传递的通道，从而促进了有效的光谱传递。此外，SFAT 对与每个变量相关的噪声方差进行了明确建模，从而最大限度地减少了非信息噪声的传递。此外，我们还提供了实证证据，展示了 SFAT 在三个真实世界数据集中的功效，证明了它在校准传输场景中的卓越性能。

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来源期刊

Talanta 化学-分析化学

CiteScore

12.30

自引率

4.90%

发文量

861

审稿时长

29 days

期刊介绍： Talanta provides a forum for the publication of original research papers, short communications, and critical reviews in all branches of pure and applied analytical chemistry. Papers are evaluated based on established guidelines, including the fundamental nature of the study, scientific novelty, substantial improvement or advantage over existing technology or methods, and demonstrated analytical applicability. Original research papers on fundamental studies, and on novel sensor and instrumentation developments, are encouraged. Novel or improved applications in areas such as clinical and biological chemistry, environmental analysis, geochemistry, materials science and engineering, and analytical platforms for omics development are welcome. Analytical performance of methods should be determined, including interference and matrix effects, and methods should be validated by comparison with a standard method, or analysis of a certified reference material. Simple spiking recoveries may not be sufficient. The developed method should especially comprise information on selectivity, sensitivity, detection limits, accuracy, and reliability. However, applying official validation or robustness studies to a routine method or technique does not necessarily constitute novelty. Proper statistical treatment of the data should be provided. Relevant literature should be cited, including related publications by the authors, and authors should discuss how their proposed methodology compares with previously reported methods.