In robot navigation experiment, a localization and motion control system is required to secure the agricultural robot motion in the environment. However, the high cost of localization system and complex structure of motion controller has limited the low cost agricultural mobile robot development. In this paper, a low-cost localization system and simple motion control system is presented. The localization system has been implemented using a dead reckoning method by accessing an incremental encoder’s reading. A simple cascaded motion control system based on proportional feedback kinematics controller and PI based controller was used to control the mobile robot motion. The performances of different turning methods: U turn and a π turn, were co...
International audienceThe evolution of population needs, together with the necessity of environment ...
Abstract-This project presents a design of a PID algorithm for driving agricultural robot motors. Th...
Nowadays agricultural techniques are increasingly focusing onto self-driving machines and smart robo...
Abstract. Automation of agricultural machinery is aimed at solving specific practical tasks: control...
Agricultural mobile robots involve automatic and accurate control of different moving parts such as ...
The use of autonomous robots for certain tasks within agriculture applications can bring many advant...
Repetitive and dangerous tasks such as harvesting and spraying have made robots usable in the greenh...
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...
This thesis reports the design and control of the “GreenWeeder”, a non-herbicidal autonomo...
The state of autonomous field- and service robotics has developed slowly but steadily since the 80's...
In recent years, the study of robotic systems for agriculture, a modern research field often shorten...
A correctly selected positioning system for controlling the mobile robotic means movement ensures hi...
Field-based phenotyping heavily relies on infield manual measurement, which is labor-intensive, repe...
The design of ROBI’, a prototype mobile manipulator for agricultural applications devised following ...
International audienceThe evolution of population needs, together with the necessity of environment ...
Abstract-This project presents a design of a PID algorithm for driving agricultural robot motors. Th...
Nowadays agricultural techniques are increasingly focusing onto self-driving machines and smart robo...
Abstract. Automation of agricultural machinery is aimed at solving specific practical tasks: control...
Agricultural mobile robots involve automatic and accurate control of different moving parts such as ...
The use of autonomous robots for certain tasks within agriculture applications can bring many advant...
Repetitive and dangerous tasks such as harvesting and spraying have made robots usable in the greenh...
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...
This thesis reports the design and control of the “GreenWeeder”, a non-herbicidal autonomo...
The state of autonomous field- and service robotics has developed slowly but steadily since the 80's...
In recent years, the study of robotic systems for agriculture, a modern research field often shorten...
A correctly selected positioning system for controlling the mobile robotic means movement ensures hi...
Field-based phenotyping heavily relies on infield manual measurement, which is labor-intensive, repe...
The design of ROBI’, a prototype mobile manipulator for agricultural applications devised following ...
International audienceThe evolution of population needs, together with the necessity of environment ...
Abstract-This project presents a design of a PID algorithm for driving agricultural robot motors. Th...
Nowadays agricultural techniques are increasingly focusing onto self-driving machines and smart robo...