Collison and Associates Limited are pleased to be working with the Internet of Food Things (IoFT) project to create a link to the EU SKIN Network on short food chains. Professor Simon Pearson, the PI for the IoFT programme is a keynote speaker at the SKIN Innovation Challenge Workshop in Budapest on 25th/26th September 2018. This ICW will focus on how new technologies will change the food supply chain and how these technologies can benefit short food chain companies.
New Research Network to support the UK’s Food Manufacturing Digital Economy
A new project has been launched to examine how the Internet of Things (IoT) could transform the food industry through innovations such as ‘smart’ cooking appliances, data-driven supermarket refrigeration networks and enhanced food traceability systems.
The Internet of Food Things (IoFT) Network Plus will bring together data and computer scientists, chemists, and economists to investigate how artificial intelligence, data analytics and emerging technologies can enhance the digitalisation of the UK food supply chain.
The network, led by the University of Lincoln in partnership with the universities of Southampton, Surrey, East Anglia, and the Open University, will examine the application of the IoT in connected homes of the future – for example smart refrigerators which trigger a grocery order when food items run low, or cooking devices which could help us live healthier lives
It will also examine the traceability of food, and how machine learning and artificial intelligence could be utilised to extract value from the vast amounts of data available across the whole food supply chain, improving efficiency and reducing food waste.
Businesses and researchers nationally will be able to participate workshops, run annual conferences to share best practice across the sector, and bid for funding for pilot studies, projects, and reviews. Collectively these initiatives, which will run until May 2021, will contribute to progressing the digitisation of food manufacturing in the UK.
The project is funded by a £1.14 million grant from the Engineering and Physical Sciences Research Council (EPSRC) to nurture and grow the UK’s food manufacturing digital economy.
Professor Simon Pearson, Director of the Lincoln Institute for Agri-food Technology (LIAT) at the University of Lincoln, said: “The food supply chain from farm to consumer generates £112bn GVA per year and employs 3.9 million people, but it is operating against a backdrop of an increasingly competitive environment. It has never been more vital that we find ways to work more efficiently, saving money for producers, manufactures, retailers, and consumers.
“There are some other stark figures relating to the sector which makes this network and its goals even more vital: each year there are around a million cases of food poisoning every year costing £1.5bn; food generates up to 30 percent of the UK’s road freight; and 10 million tons of food is wasted each year, generating 20 million tons of CO2 of greenhouse gas emissions. We want to examine how we can improve these issues, which impact us socially and environmentally
“The network is being set up to specifically engage with the whole food and digital innovation chain. It will multiply impact by including interdisciplinary contributions from food science and technology practitioners, policy makers, engineers, management specialists and colleagues in social and behavioural sciences. The inclusion of food retailers like Tesco within the consortium provides access to unrivalled data sets demonstrating behaviours.”
Alongside academic expertise, the project will involve industry specialists from a range of areas, such as global engineering company Siemens, IoT and machine management solutions’ firm IMS Evolve, supermarket chain Tesco, the rural agricultural consultancy Collison and Associates, and the High Value Manufacturing Catapult. Regulators such as the Food Standards Agency and GS1, an international agency that sets data standards for bar codes will also have input, and consumers will be engaged through representative bodies.
The term Internet of Things is used to describe how computing devices embedded in everyday objects which are enabled to send and receive data can keep people connected – for example a device at home which might automatically trigger an order for lightbulbs if a smart device registers that a bulb has blown at home.