Automatic identification of the number of food items in a meal using clustering techniques based on the monitoring of swallowing and chewing

Abstract

The number of distinct foods consumed in a meal is of significant clinical concern in the study of obesity and other eating disorders. This paper proposes the use of information contained in chewing and swallowing sequences for meal segmentation by food types. Data collected from experiments of 17 volunteers were analyzed using two different clustering techniques. First, an unsupervised clustering technique, Affinity Propagation (AP), was used to automatically identify the number of segments within a meal. Second, performance of the unsupervised AP method was compared to a supervised learning approach based on Agglomerative Hierarchical Clustering (AHC). While the AP method was able to obtain 90% accuracy in predicting the number of food items, the AHC achieved an accuracy >95%. Experimental results suggest that the proposed models of automatic meal segmentation may be utilized as part of an integral application for objective Monitoring of Ingestive Behavior in free living conditions. (C) 2011 Elsevier Ltd. All rights reserved.

Description
Keywords
Monitoring of Ingestive Behavior, Food intake, Clustering, Affinity Propagation, Agglomerative Hierarchical Clustering, ENERGY-INTAKE, INGESTIVE BEHAVIOR, OBJECTIVE QUANTIFICATION, ANOREXIA-NERVOSA, EATING BEHAVIOR, DIET, HUMANS, POPULATION, FREQUENCY, MARKERS, Engineering, Biomedical
Citation
Lopez-Meyer, P., Schuckers, S., Makeyev, O., Fontana, J. M., & Sazonov, E. (2012). Automatic identification of the number of food items in a meal using clustering techniques based on the monitoring of swallowing and chewing. In Biomedical Signal Processing and Control (Vol. 7, Issue 5, pp. 474–480). Elsevier BV. https://doi.org/10.1016/j.bspc.2011.11.004