Davegi: Solar-Powered AgriRobot

Davegi revolutionizes vegetable farming with its 360-degree rotation and dual solar-energy and crop cultivation system. This AI-powered, semi-mobile robot maximizes sunlight exposure and energy efficiency, promising a sustainable future for agriculture.


Davegi, developed by the startup AI.Land, is an exemplary model of how modern technology can be seamlessly integrated into sustainable agricultural practices. This semi-mobile agricultural robot not only streamlines the cultivation of vegetables but also harnesses solar energy to foster an eco-friendly farming environment.

Dual Functionality Enhancing Agricultural Efficiency

Davegi is uniquely designed to optimize the amount of sunlight each plant receives, thanks to its capability to rotate 360 degrees. This feature not only ensures that every plant gets an adequate amount of sunlight throughout the day but also significantly enhances the efficiency of solar energy capture. By integrating photovoltaic panels that power the robot itself, Davegi addresses the twin challenges of energy efficiency and sustainable crop cultivation in one fell swoop.

Smart Farming with Advanced AI

Equipped with state-of-the-art sensors and powered by artificial intelligence, Davegi can perform a multitude of farming tasks such as plowing, sowing, watering, fertilizing, and even harvesting. The AI component ensures each task is carried out with precision, tailored to the specific needs of the crops, thereby reducing resource waste and enhancing yield quality. This precision agriculture approach minimizes the use of water, fertilizers, and pesticides, contributing to a more sustainable agricultural ecosystem.

Increased Crop Yield and Reduced Waste

Davegi’s meticulous design allows for harvesting at the peak of ripeness, which significantly cuts down on food wastage. Its capacity to autonomously produce and process up to 60 crates of diverse vegetables daily over a 2,500 square meter area highlights its efficiency and the potential to scale up sustainable practices in vegetable farming.

Technical Specifications

  • Power Source: Solar energy through photovoltaic panels
  • Mobility: Semi-mobile with 360-degree rotation capability
  • Operational Area: Up to 2,500 square meters
  • Daily Output: 60 crates of vegetables
  • Key Functions: Plowing, sowing, watering, fertilizing, harvesting
  • AI Integration: Advanced sensors for precision farming

About AI.Land

AI.Land is at the forefront of integrating artificial intelligence with sustainable farming solutions. Based in Kempen and supported by a significant investment from the German Federal Environmental Foundation (DBU), AI.Land aims to redefine the landscape of agricultural technology. The company’s commitment to developing solutions that are not only technologically advanced but also environmentally sustainable sets it apart in the field of agri-tech.

Please visit: AI.Land’s website for more information.