Add to ORKGThis paper presents a procedure and the results of an optimal design of the kinematic structure of a manipulator to be used for autonomous cucumber harvesting in greenhouses. The design objective included the time needed to perform a collision-free motion from an initial position to the target position as well as a dexterity measure to allow for motion corrections in the neighborhood of the fruits. The optimisation problem was solved using the DIRECT algorithm implemented in the Tomlab package. A four link PPRR type manipulator was found to be most suitable. For cucumber harvesting four degrees-of-freedom, i.e. three translations and one rotation around the vertical axis, are sufficient. The PPRR manipulator described in this paper meets th...
This paper presents the development, testing and validation of SWEEPER, a robot for harvesting sweet...
Simulation is an important way to verify the feasibility of design parameters and schemes for robots...
To reach a fruit in an obstacle-dense crop environment, robotic fruit harvesting requires a collisio...
This paper presents a procedure and the results of an optimal design of the kinematic structure of a...
The paper presents results of research on inverse kinematics algorithms to be used in a functional m...
This paper describes the concept of an autonomous robot for harvesting cucumbers in greenhouses. A d...
The paper presents results of research on an inverse kinematics algorithm that has been used in a fu...
Abstract. This paper describes the concept of an autonomous robot for harvesting cucumbers in greenh...
One of the most challenging aspects of the development, at the Institute of Agricultural and Environ...
At the Institute of Agricultural and Environmental Engineering (IMAG B.V.) an autonomous harvesting ...
A leaf picking device for cucumbers was designed and evaluated. The picking device is manually opera...
This paper presents a global-optimisation frame-work for the design of a manipulator for harvesting ...
In this study, a robot prototype that moves on a monorail was designed and developed ...
The paper presents an autonomous robot for removing the leaves from cucumber plants grown in a high-...
This paper presents the development, testing and validation of SWEEPER, a robot for harvesting sweet...
Simulation is an important way to verify the feasibility of design parameters and schemes for robots...
To reach a fruit in an obstacle-dense crop environment, robotic fruit harvesting requires a collisio...
This paper presents a procedure and the results of an optimal design of the kinematic structure of a...
The paper presents results of research on inverse kinematics algorithms to be used in a functional m...
This paper describes the concept of an autonomous robot for harvesting cucumbers in greenhouses. A d...
The paper presents results of research on an inverse kinematics algorithm that has been used in a fu...
Abstract. This paper describes the concept of an autonomous robot for harvesting cucumbers in greenh...
One of the most challenging aspects of the development, at the Institute of Agricultural and Environ...
At the Institute of Agricultural and Environmental Engineering (IMAG B.V.) an autonomous harvesting ...
A leaf picking device for cucumbers was designed and evaluated. The picking device is manually opera...
This paper presents a global-optimisation frame-work for the design of a manipulator for harvesting ...
In this study, a robot prototype that moves on a monorail was designed and developed ...
The paper presents an autonomous robot for removing the leaves from cucumber plants grown in a high-...
This paper presents the development, testing and validation of SWEEPER, a robot for harvesting sweet...
Simulation is an important way to verify the feasibility of design parameters and schemes for robots...
To reach a fruit in an obstacle-dense crop environment, robotic fruit harvesting requires a collisio...