Design and Development of Automated Sprayer for Greenhouses
No Thumbnail Available
Date
2020
Journal Title
Journal ISSN
Volume Title
Publisher
Uva Wellassa University of Sri Lanka
Abstract
The chemical uses of nutrients and pesticides are one of the most important agricultural
processes and one of the most dangerous agricultural operations in the world. Automated
sprayers are being developed for the use of greenhouses to improve the safety and
effectiveness of the chemical application process, which results in reducing: chemicals,
labor costs, occupational hazards, and harmful environmental damages. Most frequently,
sprayers have been controlled by Programmable Logic Controls, Robot Q, Raspberry Pi,
and Arduino platforms. This study was intended to develop an affordable Autonomous
sprayer equipped with existing technology and adding values in rich path following, multi
spraying, best target controlling, and crop identification ability in Sri Lankan
Greenhouses content. A four-wheeler differential steering base robot was designed and
built to act as a greenhouse sprayer. The overall robot is run by using a drive unit that
consists of two brushless direct current motors. The Proportional-Integral-Derivative
controller was developed to follow the paths of lines which are located on the floor
correctly. Moreover, the crops were identified using image processing. The spraying
system also inbuilt to the robot, i.e., pump, reservoir, nozzle, etc. The fully completed
autonomous robot was tested on rough terrains and it can be able to navigate on predefined paths in greenhouses very high accuracy. Future developments will be focus to
add high processing power for digital image processing and artificial intelligence.
Keywords: Programmable logic controls, Brushless direct current motors, ProportionalIntegral-Derivative, Artificial intelligence
Description
Keywords
Agriculture, Engineering, Technology, Environmental Engineering