Relating transformation process, eco-design, composition and sensory quality in cheeses using PO2 ontology
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Bruno Perret | Hervé Guillemin | Stéphane Dervaux | Liliana Ibanescu | Elisabeth Guichard | Fernanda Fonseca | Juliette Dibie | Thomas Allard | Christian Salles | Caroline Pénicaud | Solange Buchin | B. Perret | C. Salles | E. Guichard | Thomas Allard | H. Guillemin | S. Buchin | J. Dibie | F. Fonseca | C. Pénicaud | Liliana Ibanescu | Stéphane Dervaux
[1] C. Salles,et al. Aroma release and chewing activity during eating different model cheeses , 2008 .
[2] B. Perret,et al. Life cycle assessment of the production of stabilized lactic acid bacteria for the environmentally-friendly preservation of living cells , 2018 .
[3] E. Hunter,et al. Texture of Parmigiano Reggiano cheese: Statistical relationships between rheological and sensory variates , 1996 .
[4] Pascal Neveu,et al. A generic ontological network for Agri-food experiment integration - Application to viticulture and winemaking , 2017, Comput. Electron. Agric..
[5] Elisabeth Guichard,et al. The salt and lipid composition of model cheeses modifies in-mouth flavour release and perception related to the free sodium ion content. , 2014, Food chemistry.
[6] Essex E. Finney,et al. An Objective Evaluation of Changes in Firmness of Ripening Bananas Using a Sonic Technique , 1967 .
[7] A. Woda,et al. Effects of Food Texture and Sample Thickness on Mandibular Movement and Hardness Assessment during Biting in Man , 1997, Journal of dental research.
[8] Miguel A. Sanz-Bobi,et al. Food Track & Trace ontology for helping the food traceability control , 2014 .
[9] Giovanni Grasso,et al. MESCO (MEat Supply Chain Ontology): An ontology for supporting traceability in the meat supply chain , 2017 .
[10] C. Salles,et al. Effect of lactobionic acid on the acidification, rheological properties and aroma release of dairy gels. , 2016, Food chemistry.
[11] Pascal Neveu,et al. Ontology-Based Model for Food Transformation Processes - Application to Winemaking , 2014, MTSR.
[12] A. van der Bilt,et al. The influence of product and oral characteristics on swallowing. , 2005, Archives of oral biology.
[13] Asunción Gómez-Pérez,et al. The NeOn Methodology for Ontology Engineering , 2012, Ontology Engineering in a Networked World.
[14] C. Salles,et al. In vivo sodium release and saltiness perception in solid lipoprotein matrices. 1. Effect of composition and texture. , 2012, Journal of agricultural and food chemistry.
[15] J. Berlin. Environmental life cycle assessment (LCA) of Swedish semi-hard cheese , 2002 .
[16] H. Labouré,et al. Impact of hardness of model fresh cheese on aroma release: in vivo and in vitro study. , 2007, Journal of agricultural and food chemistry.
[17] A. Saint-Eve,et al. The dynamics of aroma compound transfer properties in cheeses during simulated eating conditions , 2011 .
[18] M. Petersen,et al. Rheological and sensory properties and aroma compounds formed during ripening of soft brined cheese made from camel milk , 2018, International Dairy Journal.
[19] C. Salles,et al. Salt and aroma compound release in model cheeses in relation to their mobility. , 2009, Journal of agricultural and food chemistry.
[20] Ligia Tiruta-Barna,et al. Cost-performance indicator for comparative environmental assessment of water treatment plants. , 2013, The Science of the total environment.
[21] T. Thomas-Danguin,et al. Using cross-modal interactions to counterbalance salt reduction in solid foods , 2011 .
[22] Christian Bizer. Interlinking Scientific Data on a Global Scale , 2013, Data Sci. J..
[23] Steffen Staab,et al. What Is an Ontology? , 2009, Handbook on Ontologies.
[24] R. Heijungs,et al. Environmental Impact of Products (EIPRO) Analysis of the life cycle environmental impacts related to the final consumption of the EU-25 , 2006 .
[25] El Mostafa Qannari,et al. Understanding Aroma Release from Model Cheeses by a Statistical Multiblock Approach on Oral Processing , 2014, PloS one.
[26] C. Salles,et al. Binding of Na+ ions to proteins: Effect on taste perception , 2015 .
[27] C. Salles,et al. Structure and composition of model cheeses influence sodium NMR mobility, kinetics of sodium release and sodium partition coefficients. , 2013, Food chemistry.
[28] E. Qannari,et al. Model cheese aroma perception is explained not only by in vivo aroma release but also by salivary composition and oral processing parameters. , 2017, Food & function.
[29] Jamie Goggins,et al. A review of environmental life cycle assessment studies examining cheese production , 2017, The International Journal of Life Cycle Assessment.
[30] Takashi Nakamura,et al. Effects of pre-cooked cheeses of different emulsifying conditions on mechanical properties and microstructure of processed cheese. , 2018, Food chemistry.
[31] Sébastien Destercke,et al. A decision support system for eco-efficient biorefinery process comparison using a semantic approach , 2016, Comput. Electron. Agric..
[32] Juliette Dibie,et al. PO2 - A Process and Observation Ontology in Food Science. Application to Dairy Gels , 2016, MTSR.
[33] C. Salles,et al. In vivo sodium release related to salty perception during eating model cheeses of different textures , 2008 .
[34] Alon Y. Halevy,et al. Principles of Data Integration , 2012 .
[35] C. Salles,et al. In-mouth aroma compound release during cheese consumption: Relationship with food bolus formation , 2011 .
[36] Takeo Shiina,et al. A review of life cycle assessment (LCA) on some food products. , 2009 .
[37] Christopher R. Daubert,et al. Sensory and mechanical aspects of cheese texture , 2003 .
[38] P. Eder,et al. Environmental Improvement Potentials of Meat and Dairy Products , 2008 .
[39] Juliette Dibie,et al. [MS]^2O - A Multi-scale and Multi-step Ontology for Transformation Processes: Application to Micro-Organisms , 2016, ICCS.