Authors: Author: Castelló Ferrer Eduardo, Rye Jake, Brander Gordon, Savas Tim, Chambers Douglas, England Hildreth, Harper Caleb
Terms of Re-use: CC-BY-NC-SA
Content Provider: DSpace@MIT (Massachusetts Institute of Technology)
Due to their interdisciplinary nature, devices for controlled-environment agriculture have the possibility to turn into ideal tools not only to conduct research on plant phenology but also to create curricula in a wide range of disciplines. Controlled-environment devices are increasing their functionalities as well as improving their accessibility. Traditionally, building one of these devices from scratch implies knowledge in fields such as mechanical engineering, digital electronics, programming, and energy management.
However, the requirements of an effective controlled-environment device for personal use brings new constraints and challenges. This paper presents the OpenAg Personal Food Computer (PFC); a low cost desktop size platform, which not only targets plant phenology researchers but also hobbyists, makers, and teachers from elementary to high-school levels (K-12). The PFC is completely open-source and it is intended to become a tool that can be used for collective data sharing and plant growth analysis. Thanks to its modular design, the PFC can be used in a large spectrum of activities.
Photo: OpenAg Personal Food Computer v.2.0 at Whitehouse SXSL event (2016). Credit: Open Agriculture Initiative, MIT Media Lab (openag.mit.edu | CC-BY-SA 4.0)
Photo: Personal Food Computer (PFC) v2.0 alpha (2016). Credit: Open Agriculture Initiative, MIT Media Lab (openag.mit.edu | CC-BY-SA 4.0)