Subject: Food composition data Food composition databases Nutrient values Missing data Missing value imputation Autoencoders Deep learning
Year: 2022
Type: Article
Title: Missing value imputation in Food Composition Data with Denoising Autoencoders
Author: Gjorshoska, Ivana
Author: Eftimov, Tome
Author: Trajanov, Dimitar
Abstract: Missing data is a common problem in a wide range of fields that can arise as a result of different reasons: lack of analysis, mishandling samples, measurement error, etc. The area of nutrition and food composition is no exception to the problem of missing values. Missing data in food composition databases (FCDB) significantly limits their usage. Commonly this problem is resolved by calculating mean or median from available data in the same FCDB or borrowing values from other FCDBs, however, this method produces notable errors. This paper focuses on missing value imputation using autoencoders, a deep learning algorithm that has the ability to approximate values by learning a higher-level representation of its input. The data used was from the FCDBs collected by the USDA FoodData Central. We compared the autoencoder imputation method with the commonly used approaches fill-in-with-mean and fill-in-with-median, and the results show that the autoencoder method for imputation provides superior results.
Publisher: Academic Press
Relation: Journal of Food Composition and Analysis
Identifier: oai:repository.ukim.mk:20.500.12188/25104
Identifier: http://hdl.handle.net/20.500.12188/25104