A Novel Machine-Learning Framework Based on a Hierarchy of Dispute Models for the Identification of Fish Species Using Multi-Mode Spectroscopy

Authors

Mitchell Sueker, University of North Dakota
Amirreza Daghighi, SafetySpect Inc.
Alireza Akhbardeh, SafetySpect Inc.
Nicholas MacKinnon, SafetySpect Inc.
Gregory Bearman, SafetySpect Inc.
Insuck Baek, USDA ARS Environmental Microbial and Food Safety Laboratory
Chansong Hwang, USDA ARS Environmental Microbial and Food Safety Laboratory
Jianwei Qin, USDA ARS Environmental Microbial and Food Safety Laboratory
Amanda M. Tabb, Chapman UniversityFollow
Jiahleen Roungchun, Chapman University
Rosalee S. Hellberg, Chapman UniversityFollow
Fartash Vasefi, SafetySpect Inc.
Moon Kim, USDA ARS Environmental Microbial and Food Safety Laboratory
Kouhyar Tavakolian, University of North Dakota
Hossein Kashini Zadeh, University of North Dakota

Document Type

Article

Publication Date

11-9-2023

Abstract

Seafood mislabeling rates of approximately 20% have been reported globally. Traditional methods for fish species identification, such as DNA analysis and polymerase chain reaction (PCR), are expensive and time-consuming, and require skilled technicians and specialized equipment. The combination of spectroscopy and machine learning presents a promising approach to overcome these challenges. In our study, we took a comprehensive approach by considering a total of 43 different fish species and employing three modes of spectroscopy: fluorescence (Fluor), and reflectance in the visible near-infrared (VNIR) and short-wave near-infrared (SWIR). To achieve higher accuracies, we developed a novel machine-learning framework, where groups of similar fish types were identified and specialized classifiers were trained for each group. The incorporation of global (single artificial intelligence for all species) and dispute classification models created a hierarchical decision process, yielding higher performances. For Fluor, VNIR, and SWIR, accuracies increased from 80%, 75%, and 49% to 83%, 81%, and 58%, respectively. Furthermore, certain species witnessed remarkable performance enhancements of up to 40% in single-mode identification. The fusion of all three spectroscopic modes further boosted the performance of the best single mode, averaged over all species, by 9%. Fish species mislabeling not only poses health-related risks due to contaminants, toxins, and allergens that could be life-threatening, but also gives rise to economic and environmental hazards and loss of nutritional benefits. Our proposed method can detect fish fraud as a real-time alternative to DNA barcoding and other standard methods. The hierarchical system of dispute models proposed in this work is a novel machine-learning tool not limited to this application, and can improve accuracy in any classification problem which contains a large number of classes.

Comments

This article was originally published in Sensors, volume 23, in 2023. https://doi.org/10.3390/s23229062

Recommended Citation

Sueker, M.; Daghighi, A.; Akhbardeh, A.; MacKinnon, N.; Bearman, G.; Baek, I.; Hwang, C.; Qin, J.; Tabb, A.M.; Roungchun, J.B.; et al. A Novel Machine-Learning Framework Based on a Hierarchy of Dispute Models for the Identification of Fish Species Using Multi-Mode Spectroscopy. Sensors 2023, 23, 9062. https://doi.org/10.3390/s23229062

Peer Reviewed

1

Copyright

The authors

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 License.