Litcius/Paper detail

A Suspended Pollination Robot With a Flexible Multi-Degrees-of-Freedom Manipulator for Self-Pollinated Plants

Naoya Masuda, Mohamed M. Khalil, Seitaro Toda, Kotaro Takayama, Ayato Kanada, Tomoaki Mashimo

2024IEEE Access11 citationsDOIOpen Access PDF

Abstract

Pollination is an essential component of plant production, but today, agricultural fields suffer from a shortage of natural pollinators due to a variety of factors. To solve this serious problem, artificial pollination has been introduced. Robotic pollinators not only help farmers with a more cost-effective and stable pollination method but also help in crop production in environments that are not suited for natural pollinators, such as greenhouses. In this paper, we propose a suspended pollination robot that moves along the rail laid on the roof of greenhouses. This robot has a flexible multi-degrees-of-freedom manipulator with two actuators: a retractable linear actuator controls the end effector with a blower to approach the flower, and a tendon-driven continuum actuator changes the orientation of the end effector. After a flower is designated by a perspective camera and close-up camera, the end effector blows the wind to shake the flower. Field tests are conducted by manual control to assess the fruit set rate of tomatoes, one of the well-known self-pollinated plants. This result becomes a benchmark for robotic pollination when manual tasks will be replaced by AI in the future.

Topics & Concepts

Manipulator (device)PollinationComputer scienceRobotControl theory (sociology)Artificial intelligenceBiologyBotanyControl (management)PollenGreenhouse Technology and Climate ControlSmart Agriculture and AI