Prediction of resilience and cohesion of deep-fried tofu by ultrasonic detection and LightGBM regression
Author:
Publisher
Elsevier BV
Subject
Food Science,Biotechnology
Reference32 articles.
1. Application of protein-based edible coatings for fat uptake reduction in deep-fat fried foods with an emphasis on muscle food proteins;Ananey-Obiri;Trends in Food Science & Technology,2018
2. Direct comparison of the tofu-like precipitate formation by adding different coagulants: Magnesium chloride and glucono-δ-lactone;Arii;Heliyon,2021
3. Study of the variation in the ultrasonic attenuation of compression waves as a technique to monitor the enzymatic coagulation of milk;Cabrera;Journal of Food Engineering,2022
4. Ultrasonic signal classification and porosity testing for CFRP materials via artificial neural network;Chen;Materials Today Communications,2022
5. Characterization of food additive-potato starch complexes by FTIR and X-ray diffraction;Dankar;Food Chemistry,2018
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