Global food wastage could be reduced by 20% by the year 2025 and by 50% well before the end of the next decade, thanks to the transformation of supply chains and billions of connected devices operating every second of the day.
Amid an international food crisis, the United Nations has set the target of reducing 50% of food wastage by 2030 as part of its Global Opportunities for Sustainable Development Goals (GO4SDGs). Yet, Eseye believes the world can meet this target sooner with the acceleration of IoT and the rise of innovative new technologies, such as single-use ‘smart’ labels and real-time data tracking.
Figures show that globally, 1.6 billion tons of food is currently lost or wasted every year – equating to USD 1.2 trillion. Still, the tide could soon be turned thanks to advancements in technology that allow for printing IoT circuits, batteries, and cellular connectivity onto flexible labels. When placed on food items, these labels would enable complete real-time visibility of the entire supply chain, from farm to fork and provide instant monitoring of areas such as location, temperature, and humidity. This not only stops produce from being damaged and wasted but also works to prevent oversupply.
Smart Farming: Reduce Loss After Harvest
It’s not just in transit where connectivity can make a real difference in feeding the world. According to the United Nations Food and Agriculture Organization, around 14% of the world’s food is lost after harvest and before reaching shops and markets. Innovations in smart farming can help to tackle this and improve food yields.
Through sophisticated real-time data tracking, sensors can measure fruit and vegetables’ properties, such as color, size, and shape, while they are still growing. This information then helps control the growing conditions, such as water supply, and accurately determines the best harvest date. This data can meaningfully reduce the amount of lost stock before it even enters the supply chain.
By connecting every single part of the supply chain, we can grow, pick and ship only what we need, and then better care for that produce to ensure it reaches the fork unharmed. IoT has traditionally been centred around big-ticket items such as machinery and consumer goods and electricals, but new technologies are making smaller sensors economically viable on a massive scale.”
Current Mobile Network Model
However, there is a significant barrier to urgently overcome before real-time data tracking reaches the levels required for this technology to function properly. As described, a tracking label will need to move through multiple countries and the data accessed by multiple organizations. Seamless and intelligent cellular IoT connectivity, which enables to switch automatically and agnostically between multiple mobile networks depending on which has the best coverage, is needed to ensure that this technology is viable in the long term.
This has traditionally been a barrier for the IoT industry as a whole. For example, in the UK, individual mobile network operators are only required by the government to provide good quality services to 88% of the landmass by 30 June 2024 and 90% by 30 June 2026. Clearly, each device being tied to a single network operator is not fit for mass IoT deployment.
We have the genuine possibility of reducing global food wastage by 20% by 2025 and 50% before the end of the next decade, but only if the problems that have troubled IoT for years are resolved. The current mobile network model is not fit for the purpose. We need mobile operators to work together to enable devices to connect seamlessly anywhere in the world in a way that gives them the best possible connection, regardless of network provider.