Add to ORKGThis thesis documents the development of an autonomous row crop guidance system for a differentially wheeled agricultural robot. Computer vision is used to identify rows and estimate their position and orientation. The estimates are used as measurements in a Kalman filter, before being supplied to a row controller which attempts to make the robot follow the row closely. A simulator with a realistic robot and fields have been developed, and all methods were tested on real robots. Tests have been done on an indoor recreation of a field and outdoors on a real carrot field. The result is a system which is able to autonomously traverse an entire field in simulations and recreated fields
Nowadays agricultural techniques are increasingly focusing onto self-driving machines and smart robo...
Nowadays agricultural techniques are increasingly focusing onto self-driving machines and smart robo...
Nowadays agricultural techniques are increasingly focusing onto self-driving machines and smart robo...
Abstract—A vision-based row guidance method is presented to guide a robot platform which is designed...
Autonomous navigation of a robot in agricultural fields is essential for every task from crop monito...
This paper describes a novel vision based texture tracking method to guide autonomous vehicles in ag...
An RTK-DGPS (Real Time Kinematic Differential Global Positioning System) based autonomous field navi...
This thesis presents an approach to visually-aided navigation of agricultural robots in cropping fie...
An RTK-DGPS (Real Time Kinematic Differential Global Positioning System) based autonomous field navi...
This paper describes a novel vision based texture tracking method to guide autonomous vehicles in ag...
This paper describes a novel vision based texture tracking method to guide autonomous vehicles in ag...
International Conference on Automation, Mechanical and Electrical Engineering (AMEE) -- JUL 26-27, 2...
The research presented in this thesis is focused on the navigation technique for an autonomous gro...
This thesis addresses the problem of outdoor autonomous robot localization for agricultural operati...
Autonomous robots for agricultural practices will become reality soon. These mobile robots could tak...
Nowadays agricultural techniques are increasingly focusing onto self-driving machines and smart robo...
Nowadays agricultural techniques are increasingly focusing onto self-driving machines and smart robo...
Nowadays agricultural techniques are increasingly focusing onto self-driving machines and smart robo...
Abstract—A vision-based row guidance method is presented to guide a robot platform which is designed...
Autonomous navigation of a robot in agricultural fields is essential for every task from crop monito...
This paper describes a novel vision based texture tracking method to guide autonomous vehicles in ag...
An RTK-DGPS (Real Time Kinematic Differential Global Positioning System) based autonomous field navi...
This thesis presents an approach to visually-aided navigation of agricultural robots in cropping fie...
An RTK-DGPS (Real Time Kinematic Differential Global Positioning System) based autonomous field navi...
This paper describes a novel vision based texture tracking method to guide autonomous vehicles in ag...
This paper describes a novel vision based texture tracking method to guide autonomous vehicles in ag...
International Conference on Automation, Mechanical and Electrical Engineering (AMEE) -- JUL 26-27, 2...
The research presented in this thesis is focused on the navigation technique for an autonomous gro...
This thesis addresses the problem of outdoor autonomous robot localization for agricultural operati...
Autonomous robots for agricultural practices will become reality soon. These mobile robots could tak...
Nowadays agricultural techniques are increasingly focusing onto self-driving machines and smart robo...
Nowadays agricultural techniques are increasingly focusing onto self-driving machines and smart robo...
Nowadays agricultural techniques are increasingly focusing onto self-driving machines and smart robo...