GRACED

Objective of the projet

As consumer demand for fresh fruits and vegetables (F&V) continues to increase, so does the risk of microbiological and chemical contamination. Currently, inspections for F&V are carried out at the production site or the food processing facility, based also on regulatory requirements. In most cases these are inspections of random batches using laboratory techniques, which may require up to two or more days before getting results. The time and cost per analysis leads to reduced checks and thus, elevated risks, even in countries with very efficient control mechanisms.

Furthermore, such analysis cannot take place in all parts of the value chain (due to time requirements, but also due to associated cost), including supermarkets or restaurants, which are critical points since this is where the consumer will get the products from. GRACED considers the aforementioned need and the limitations of current techniques and proposes a novel solution for contaminants detection in all stages of the F&V industry value chains.

The heart of the proposed solution is a novel plasmo-photonic bimodal interferometric sensor, combined with low cost on-chip light generation, capable of simultaneously and quickly detecting different analytes of interest. The sensor will be part of holistic, modular solution that exploits unique engineering designs, IoT concepts and advanced data analytics, for the early detection of contaminations in the F&V value chains.

The complete system will be tested and demonstrated in different production & distribution systems:

a) a conventional farming system (in Italy) in open-air farms and the follow-up steps of food processing for preparing cooked meals and frozen vegetable packages,

b) a novel, urban farming ecosystem (in France), producing F&V locally and using them in in-situ restaurants,

c) a short value chain based on agro-ecology (in France) and direct distribution from farmers to consumers & restaurants,

d) a semi-automatic farm producing mushrooms and distributing them to supermarkets & wholesalers (in Hungary).

Contribution of Multitel

Multitel will develop the optoelectrical interrogation system of the plasmonic chip (light in- and out-coupling, optical signal acquisition and analysis, electrical tuning of the MZI) and the user interface for controlling the device and acquiring the multiplex sensogram.

Different versions of the system will be developed in order to accommodate to the different development phases of the chip (from spectral to intensity monitoring, with or without integrated quantum dots). They will also be involved in all integration and validation stages, but also in the dissemination and exploitation activities, as well as in the initial system specification requirement collection stages (WP2).

Applications

Food quality monitoring

Coordinator

• CY.R.I.C CYPRUS RESEARCH AND INNOVATION CENTER LTD (Cyprus)

Partners

• MULTITEL (Belgium)
• CONSIGLIO NAZIONALE DELLE RICERCHE (Italy)
• TECNOALIMENTI S.C.P.A. (Italy)
• EASY GLOBAL MARKET SAS (France)
• BIALOOM LTD (Cyprus)
• CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (CNRS) (France)
• SOUS LES FRAISES (France)
• ARISTOTELIO PANEPISTIMIO THESSALONIKIS (Greece)
• POUR UNE AGRICULTURE DU VIVANT (France)
• GESELLSCHAFT FUR ANGEWANDTE MIKRO UND OPTOELEKTRONIK MIT BESCHRANKTERHAFTUNG AMO GMBH (Germany)
• PILZE-NAGY KERESKEDELMI ES SZOLGALTATO KFT (Hungary)
• ISS BIOSENSE SRL (Italy)
• LUMENSIA SENSORS SL (Spain)