Growing Tomatoes Remotely with the Autonomous Greenhouse Challenge

The 2nd Edition van geïntroduceerd Autonomous Greenhouse Challenge is underway, drawing 21 teams and over 200 participants in its initial round. Run door Wageningen University & Research (WUR) and sponsored door Heliospectra en other industry leaders, de challenge omvat multidisciplinary teams from rond geïntroduceerd globe.

The teams zijn comprised van deskundigen and students in de fields van horticultural science and technologie, met geïntroduceerd skills en expertise naar employ artificial intelligence (AI), algorithms, and sensors naar kweken geïntroduceerd highest-quality planten met minimal human intervention. 

The Challenge

The challenge is to produce the ultimate crop of cherry tomatoes inside a greenhouse space within 6 months – and do so remotely. The goal is to explore how intelligent technology can produce greenhouse-grown vegetables more sustainably and efficiently while maintaining high production and resource use standards. Teams are competing against each other and a squad of traditional growers. During the 6-month period, teams are not allowed to enter the greenhouse units and must manage the growth of their crops with IT technology. 

The 1st edition of the challenge, which focused on growing cucumbers, concluded in 2018. In that challenge, several AI teams performed on par and even better than the human reference group, consisting of a team of Dutch growers. This demonstrated the potential of AI to increase food security in the future and inspired a 2nd edition of the challenge. 

In the 2nd edition, following a 24-hour virtual tomato hackathon last September, only 5 teams now remain. These teams are currently engaged in remotely controlled greenhouse tomato growing until the end of May 2020. 

De Technology

Each team has been provided with a greenhouse unit by WUR and can use their own sensors and cameras of choice. The teams are able to extract data from their greenhouses and use their own information & communication technology (ICT) models and machine learning algorithms for the control settings. 

Heliospectra has sponsored the event by supplying controllable ELIXIA LED lights, which have joined the existing HPS lights in the greenhouse units. This hybrid lighting system of HPS and LED has given competitors higher control over lighting conditions and has ensured ideal growing conditions for tomato plants over the winter months. With the possibility to dynamically control light intensity and light spectra, the competing teams can design lighting strategies to optimize energy consumption and fine-tune crop development and growth. ‍ 

The Teams

The teams, listed below, will be scored by jury members based on the results achieved during the greenhouse experiment, as well as their presentations of the strategies used. The winning team will be announced at Greentech 2020, June 8-10 in Amsterdam. 

At Heliospectra, we are both excited and curious to see how our LED technology is utilized by these talented minds, as we ourselves are interested in frontier AI technologies, machine learning, and data-driven cultivation. This challenge deeply aligns with our vision for feeding and healing the world – and our own goals of growing high-quality, nutritious crops using intelligent technology to increase sustainability and efficiency. Together we can learn better ways to re-define nature’s potential and meet the food production needs of the future while conserving the planet’s resources.