Mixed deep learning and natural language processing method for fake-food image recognition and standardization to help automated dietary assessment

The present study tested the combination of an established and a validated food-choice research method (the 'fake food buffet') with a new food-matching technology to automate the data collection and analysis. The methodology combines fake-food image recognition using deep learning and foo...

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Bibliographic Details
Published in:Public health nutrition 2019-05, Vol.22 (7), p.1193-1202
Main Authors: Mezgec, Simon, Eftimov, Tome, Bucher, Tamara, Koroušić Seljak, Barbara
Format: Article
Language:English
Subjects:
Algorithms
Artificial intelligence
Automation
Classification
Data collection
Deep Learning
Diet Records
Food
Food composition
Food Preferences
HOT TOPIC: ICT Assisted Dietary Data Collection and Analysis
Humans
Image acquisition
Image classification
Image processing
Image Processing, Computer-Assisted
Image segmentation
Information sources
International conferences
Knowledge management
Laboratories
Language
Machine learning
Matching
Meals
Model accuracy
Multimedia
Natural Language Processing
Nutrition Assessment
Object recognition
Pattern recognition
Pixels
Research Paper
Researchers
Standardization
Studies
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Summary:The present study tested the combination of an established and a validated food-choice research method (the 'fake food buffet') with a new food-matching technology to automate the data collection and analysis. The methodology combines fake-food image recognition using deep learning and food matching and standardization based on natural language processing. The former is specific because it uses a single deep learning network to perform both the segmentation and the classification at the pixel level of the image. To assess its performance, measures based on the standard pixel accuracy and Intersection over Union were applied. Food matching firstly describes each of the recognized food items in the image and then matches the food items with their compositional data, considering both their food names and their descriptors. The final accuracy of the deep learning model trained on fake-food images acquired by 124 study participants and providing fifty-five food classes was 92·18 %, while the food matching was performed with a classification accuracy of 93 %. The present findings are a step towards automating dietary assessment and food-choice research. The methodology outperforms other approaches in pixel accuracy, and since it is the first automatic solution for recognizing the images of fake foods, the results could be used as a baseline for possible future studies. As the approach enables a semi-automatic description of recognized food items (e.g. with respect to FoodEx2), these can be linked to any food composition database that applies the same classification and description system.
ISSN:1368-9800
1475-2727
1475-2727
DOI:10.1017/S1368980018000708