Some remarks on computational approaches towards sustainable complex agri-food systems

Agri-food is one of the most important sectors of the industry in Europe and potentially a major contributor to the global warming. Sustainability issues in this context pose a huge challenge for several reasons: the variety of considered scales, the number of disciplines involved, the uncertainties...

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Bibliographic Details
Published in:Trends in food science & technology 2016-02, Vol.48, p.88-101
Main Authors: Perrot, Nathalie, De Vries, Hugo, Lutton, Evelyne, van Mil, Harald G.J., Donner, Mechthild, Tonda, Alberto, Martin, Sophie, Alvarez, Isabelle, Bourgine, Paul, van der Linden, Erik, Axelos, Monique A.V.
Format: Article
Language:English
Subjects:
Agri-food systems
Computation
Global warming
Human-machine interactive learning
Life Sciences
Mathematical models
Mathematical programming
Multiscale modeling
Optimization
Physiology
Resilience
Sustainability
Uncertainty
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Summary:Agri-food is one of the most important sectors of the industry in Europe and potentially a major contributor to the global warming. Sustainability issues in this context pose a huge challenge for several reasons: the variety of considered scales, the number of disciplines involved, the uncertainties, the out-of-equilibrium states, the complex quantitative and qualitative factors, the normative issues and the availability of data. Although important insight and breakthroughs have been attained in different scientific domains, an overarching and integrated analysis of these complex problems have yet to be realized. This context creates huge opportunities for research in interaction with mathematical programming, integrative models and decision-support tools. The paper propose a computational viewpoint including questions of holistic approach, multiscale reconstruction and optimization. Some directions are discussed. Several research questions based on a mathematical programming framework are emerging: how can such a framework manage uncertainty, cope with complex qualitative and quantitative information essential for social and environmental considerations, encompass diverse scales in space and time, cope with a multivariable dynamic environment and with scarcity of data. Moreover, how can it deal with different perspectives, types of models, research goals and data produced by conceptually disjoint scientific disciplines, ranging from physics and physiology to sociology and ethics? Building models is essential, but highly difficult; it will need a strong iterative interaction combining computational intensive methods, formal reasoning and the experts of the different fields. Some future research directions are proposed, involving all those dimensions: mathematical resilience, human-machine interactive learning and optimization techniques. •The agri-food sector is one of the most important sectors of the industry.•Dealing with sustainability issues in this sector, is a enormous and difficult challenge.•Here lies a huge opportunity at the frontier of agri-food and computing science.•New mathematical tools are proposed to address sustainability of food systems.•Key examples are developed.
ISSN:0924-2244
1879-3053
DOI:10.1016/j.tifs.2015.10.003