The project started with the definition of the I-Seed environmental scenarios and field validation strategy, followed by a series of scientific and technical activities for the design and development of the I-Seed platform. Specifically, a focused study of plant seed materials and biomechanics was carried out in order to define useful specifications for the modelling and the design of the artificial systems in terms of multi-functional materials, their structural properties, and morphological adaptation. In parallel, we carried out activities for the mathematical modelling of movements of natural and artificial seeds, for the design and development of the artificial seeds body and their sensing material, for the development of the active laser-induced fluorescence system on the drone, as well as for the geo-referencing software and smart flight controller.
During the initial three years of the project (2021-2023), we successfully developed five types of seed-inspired robots, four fluorescent sensors (for detecting mercury, CO2, humidity, and temperature) and a drone/LIDAR system. In June 2024, we conducted the first in-field integration tests of the robots and fluorescent temperature sensor in Wageningen (Netherlands) with the fluorescence signal measured by the drone/LIDAR system. By the end of 2024, we have assessed the potentiality of the environmental measurements achievable with the I-Seed ecosystem, comparing them with conventional technologies.
The project successfully fostered cross-disciplinary collaboration between the biorobotics and environmental science communities, as well as citizen-focused eco-innovation initiatives. It led to the publication of 16 journal articles—three of which featured on the cover—alongside three conference papers, over 80 presentations at scientific events, and one patent. The consortium organized special sessions, workshops, scientific cafés, a forum, the first PhD school on Environmental Intelligence, and actively participated in exhibitions at robotics conferences and science festivals. The project gained widespread media attention with over 140 mentions in national and international outlets. Key deliverables included a white paper with an associated journal publication, four Blueprint documents on Environmental Intelligence—culminating in an EIC recommendation report. A comprehensive exploitation plans featuring market analysis was released.