A statistical model for removing inter-device differences in spectroscopy | Zendy

Lu Wang | Zendy; JongSoo Lee | Zendy; Pierre Lane | Zendy; E. Neely Atkinson | Zendy; Andrés F. Zuluaga | Zendy; Michele Follen | Zendy; Calum MacAulay | Zendy; Dennis D. Cox | Zendy

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A statistical model for removing inter-device differences in spectroscopy

Author(s) -

Lu Wang,

JongSoo Lee,

Pierre Lane,

E. Neely Atkinson,

Andrés F. Zuluaga,

Michele Follen,

Calum MacAulay,

Dennis D. Cox

Publication year - 2014

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.22.007617

Subject(s) - repeatability , statistical model , optics , variation (astronomy) , computer science , experimental data , statistical analysis , materials science , statistics , physics , artificial intelligence , mathematics , astrophysics

We are investigating spectroscopic devices designed to make in vivo cervical tissue measurements to detect pre-cancerous and cancerous lesions. All devices have the same design and ideally should record identical measurements. However, we observed consistent differences among them. An experiment was designed to study the sources of variation in the measurements recorded. Here we present a log additive statistical model that incorporates the sources of variability we identified. Based on this model, we estimated correction factors from the experimental data needed to eliminate the inter-device variability and other sources of variation. These correction factors are intended to improve the accuracy and repeatability of such devices when making future measurements on patient tissue.

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