Excitement is mounting in the greenhouses of Wageningen University & Research in Bleiswijk: five teams from across the globe have embarked on the next phase of the Autonomous Greenhouse Challenge. The task is to cultivate dwarf tomatoes completely autonomously, without human intervention.
In the first phase of the competition, the teams worked hard on developing advanced algorithms. Now, they get to apply that knowledge practically in their greenhouse compartment in Bleiswijk. Using sensors and artificial intelligence, the teams meticulously control temperature, light, humidity, and CO2 to create the optimal growth conditions for the tomato plants.
All of this is done entirely automatically and as sustainably as possible. The ultimate goal is to achieve the highest net profit sustainably. Extra points can be earned by making the right decisions regarding biological pest control, based on digital information from the greenhouse. The team with the most points will be crowned the winner of the Autonomous Greenhouse Challenge 2024.
Whether it is growing flowers, vegetables, or fruits, autonomous greenhouses are expected to play an increasingly important role in future production. Higher yields can be achieved with the use of fewer resources such as water and energy. In an era where sustainability is key, these innovations can make a significant difference. Moreover, automation in greenhouse cultivation can help reduce labor costs and address staff shortages.
Researcher and Challenge organizer Silke Hemming says that: "The techniques needed to enable autonomous cultivation on a larger scale already exist But there isn't always enough training data to build algorithms that are robust and scalable. There's also the question of who is responsible if something goes wrong in a commercially run greenhouse. Is it the grower or the person who built the algorithms?"
The participants in the fourth Autonomous Greenhouse Challenge do not need to worry about answering that question. The annual event plays an important role in fostering knowledge and innovation. By bringing together international teams, new ideas and revolutionary technologies are born. The Autonomous Greenhouse Challenge not only strengthens the Netherlands' position as a leader in agricultural innovation but also offers inspiration and practical insights for growers worldwide.
According to Hemming, fully autonomous cultivation of dwarf tomatoes is not easy. The teams must optimize all different cultivation factors and also consider the financial aspects. "There are always many uncertainties in crop cultivation. Besides pests and diseases, you also have to think about unexpected crop reactions and uncertainties in weather forecasts. The teams' algorithms need to be able to cope with these and that's very complex. Unexpected events such as sensor failures can also present additional challenges."
This autumn, five teams, totaling 60 participants, will compete for the win. A quarter of the participants are women, the teams represent 10 different nationalities, and a third of the participants are students, many of whom are PhD students. Other participants are employees of companies and research institutions.
These are the teams:
IDEAS - Zhejiang University, China
MuGrow – TU Delft, Gardin, Rijk Zwaan, Wageningen University
AgriFusion – Croft, Korea University of Technology and Education, Seoul National University, IMEC, GreenBites, Harvard University
Team Trigger – Grit, Daeyoung, Bigwave, Ridder, Seoul National University, Keimyung University
Tomatonuts - Wageningen University, China Agricultural University, Jingwa Agricultural Science and Technology Innovation Centre, Golden Scorpion
The participating teams in the Autonomous Greenhouse Challenge are expected to harvest their dwarf tomatoes by December. On 16 January 2025, the winning team will be announced. Until then, the teams will continue to work hard to optimize their autonomous cultivation methods and help shape the future of greenhouse horticulture. From 2 September, the challenge can be followed live via the dashboard on www.autonomousgreenhouses.com.
In addition to Wageningen University & Research, this event is co-organized and sponsored by Tencent, Biobest, Certhon, Fluence, Gebr. Geers, Lensli Substrates, LetsGrow.com, Quantified, Pöppelmann and Vreugdenhil Breeding & Seeds.
For more information:
Wageningen University & Research
Laurens Tijink
l[email protected].
wur.nl/en