Authors: Angelo Corallo, Maria Elena Latino, Marta Menegoli

Abstract:

Agri-food value chain involves various stakeholders with different roles. All of them abide by national and international rules and leverage marketing strategies to advance their products. Food products and related processing phases carry with it a big mole of data that are often not used to inform final customer. Some data, if fittingly identified and used, can enhance the single company, and/or the all supply chain creates a math between marketing techniques and voluntary traceability strategies. Moreover, as of late, the world has seen buying-models’ modification: customer is careful on wellbeing and food quality. Food citizenship and food democracy was born, leveraging on transparency, sustainability and food information needs. Internet of Things (IoT) and Analytics, some of the innovative technologies of Industry 4.0, have a significant impact on market and will act as a main thrust towards a genuine ‘4.0 change’ for agriculture. But, realizing a traceability system is not simple because of the complexity of agri-food supply chain, a lot of actors involved, different business models, environmental variations impacting products and/or processes, and extraordinary climate changes. In order to give support to the company involved in a traceability path, starting from business model analysis and related business process a Framework to Manage Product Data in Agri-Food Supply Chain for Voluntary Traceability was conceived. Studying each process task and leveraging on modeling techniques lead to individuate information held by different actors during agri-food supply chain. IoT technologies for data collection and Analytics techniques for data processing supply information useful to increase the efficiency intra-company and competitiveness in the market. The whole information recovered can be shown through IT solutions and mobile application to made accessible to the company, the entire supply chain and the consumer with the view to guaranteeing transparency and quality.

Keywords: Agriculture 4.0, agri-food supply chain, Industry 4.0, voluntary traceability.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1316618

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 2276

References:

[1] L. Maci, ‘Che cos'è l'Industria 4.0 e perché è importante saperla affrontare,’ Economyup, 20-Nov-2017. (Online). Available: https://www.economyup.it/innovazione/cos-e-l-industria-40-e-perche-e-importante-saperla-affrontare/. (Accessed: 12-Dec-2017).
[2] J. L. Wilkins, ‘Eating Right Here: Moving from Consumer to Food Citizen,’ Agriculture and Human Values, vol. 22, no. 3, pp. 269–273, 2005.
[3] D. Pandey and M. Agrawal, ‘Carbon footprint estimation in the agriculture sector,’ in Assessment of Carbon Footprint in Different Industrial Sectors, vol. 1, EcoProduction, 2014, pp. 25–47.
[4] B. R. McFadden and S. Stefanou, ‘Another Perspective on Understanding Food Democracy,’ Choices, vol. 31, no. 1, pp. 1–6, 2016.
[5] A. G. J. Velthuis, New approaches to food-safety economics. Dordrecht: Kluwer Academic Publishers, 2003.
[6] A. Banterle and S. Stranieri, ‘The consequences of voluntary traceability system for supply chain relationships. An application of transaction cost economics,’ Food Policy, vol. 33, no. 6, pp. 560–569, 2008.
[7] E. Holleran, M. E. Bredahl, and L. Zaibet, ‘Private incentives for adopting food safety and quality assurance,’ Food Policy, vol. 24, no. 6, pp. 669–683, 1999.
[8] A. T. Balafoutis, et al., ‘Smart Farming Technologies – Description, Taxonomy and Economic Impact’ In: Pedersen S., Lind K. (eds) Precision Agriculture: Technology and Economic Perspectives. Progress in Precision Agriculture. Springer, Cham, 2017.
[9] M. Bellini, ‘Effetto Industria 4.0: +25% di crescita a 1,7 MLD Euro’, Internet4things.it, 2017. (Online). Available: https://www.internet4things.it/industry-4-0/effetto-industria-4-0-25-di-crescita-a-17-mld-euro/. (Accessed: 13- Dec- 2017).
[10] Shrouf, F., et al. ‘Smart factories in Industry 4.0: A review of the concept and of energy management approached in production based on the Internet of Things paradigm.’ 2014 IEEE International Conference on Industrial Engineering and Engineering Management, 2014, doi:10.1109/ieem.2014.7058728.
[11] C. Cicatiello, La sostenibiltà della filiera agroalimentare. Un modello per l'efficienza dell'organizzazione distributiva su scala locale. Università degli studi della Tuscia - Viterbo, 2014.
[12] M. Valentini and L. Callegaro, ‘Le filiere agroalimentari tra innovazione e tradizione: l’analisi quantitativa del sistema agroalimentare italiano’, in Le filiere agroalimentari tra innovazione e tradizione, Trieste, 2013.
[13] G. Belletti and A. Marescotti, Agricoltura e sistema agro-alimentare. Università di Firenze, 2010.
[14] J. Kinsey, ‘Presidents: The New Food Economy: Consumers, Farms, Pharms, and Science’, American Journal of Agricultural Economics, vol. 83, no. 5, pp. 1113-1130, 2001.
[15] ISO 22005:2007, ‘ISO 22005:2007 - Traceability in the feed and food chain -- General principles and basic requirements for system design and implementation’, Iso.org, 2017. (Online). Available: https://www.iso.org/standard/36297.html. (Accessed: 13- Dec- 2017).
[16] T. Moe, ‘Perspectives on traceability in food manufacture’, Trends in Food Science & Technology, vol. 9, no. 5, pp. 211-214, 1998.
[17] E. Golan, B. Krissoff, F. Kuchler, L. Calvin, K. Nelson and G. Price, ‘Traceability in the U.S. Food Supply: Economic Theory and Industry Studies’, Economic Research Service U.S. Department of Agriculture, Agricultural Economic Report, no. 830, 2004.
[18] N. Dlodlo and J. Kalezhi, ‘The internet of things in agriculture for sustainable rural development,’ 2015 International Conference on Emerging Trends in Networks and Computer Communications (ETNCC), 2015.
[19] R. Grant, ‘Toward a knowledge-based theory of the firm’, Strategic Management Journal, vol. 17, no. 2, pp. 109-122, 1996.
[20] J. Spender, ‘Making knowledge the basis of a dynamic theory of the firm’, Strategic Management Journal, vol. 17, no. 2, pp. 45-62, 1996.
[21] T. Allweyer, BPMN 2.0. Norderstedt: Books on Demand, 2010.
[22] M. Polanyi, The logic of personal knowledge. London: Routledge & Kegan Paul, 1961.
[23] M. Polanyi and A. Sen, The tacit dimension. Chicago, Ill: The University of Chicago Press, 2013.
[24] I. Nonaka and H. Takeuchi, ‘The knowledge-creating company: How Japanese companies create the dynamics of innovation’, Long Range Planning, vol. 29, no. 4, p. 592, 1996.