Requirements for verifying spatial relations in robot workcell in terms of accuracy and repeatability are increasing. Improvements in the performance of industrial robots have extended the range of applications in to new fields in which flexibility, high payload, accuracy and repeatability are needed. To satisfy the requirements of overall geometric performance and flexibility in a robot system, a sensor-based, intelligent robot can be used. One of the goals of this thesis was to develop a flexible, CAD-based robot system. Modern applications and cost-effective production require off-line programming, and the difference between off-line programming systems and actual robot workcells has to be illustrated somehow in order to verify the gap b...
Errors in model parameters, sensing, and control are inevitably present in real robot systems. These...
This thesis proposes a fine-motion planner for assembly tasks in the plane considering two degrees o...
Robots must successfully plan and execute tasks in the presence of uncertainty. Uncertainty arises...
Requirements for verifying spatial relations in robot workcell in terms of accuracy and repeatabilit...
In this paper, we present a methd to estimate surface models based on a point cloud taken from the s...
A holonic multi-robot cell is such a cell specifying a system based on autonomous and cooperative un...
In this paper a method to locate workobjects with splined surfaces and estimate the spatial uncertai...
In this paper, we present a method for planning the sensing features when the geometrical representa...
Many industrial robotic applications concern a manipulator that pick up objects from a working area,...
In this paper, we present a method to estimate spatial uncertainties of a localized workobject using...
This paper presents a method for planning the sensing features when the geometrical representation o...
An autonomous mobile robot needs some internal representation of environment to efficiently carry ou...
In this paper, we present a flexible hand-eye calibration method for a range sensor attched to the T...
Industrial robots are fast and accurate when working with known objects at precise locations in well...
A simple and a reliable full pose (translation and orientation) calibration for a range sensor is ne...
Errors in model parameters, sensing, and control are inevitably present in real robot systems. These...
This thesis proposes a fine-motion planner for assembly tasks in the plane considering two degrees o...
Robots must successfully plan and execute tasks in the presence of uncertainty. Uncertainty arises...
Requirements for verifying spatial relations in robot workcell in terms of accuracy and repeatabilit...
In this paper, we present a methd to estimate surface models based on a point cloud taken from the s...
A holonic multi-robot cell is such a cell specifying a system based on autonomous and cooperative un...
In this paper a method to locate workobjects with splined surfaces and estimate the spatial uncertai...
In this paper, we present a method for planning the sensing features when the geometrical representa...
Many industrial robotic applications concern a manipulator that pick up objects from a working area,...
In this paper, we present a method to estimate spatial uncertainties of a localized workobject using...
This paper presents a method for planning the sensing features when the geometrical representation o...
An autonomous mobile robot needs some internal representation of environment to efficiently carry ou...
In this paper, we present a flexible hand-eye calibration method for a range sensor attched to the T...
Industrial robots are fast and accurate when working with known objects at precise locations in well...
A simple and a reliable full pose (translation and orientation) calibration for a range sensor is ne...
Errors in model parameters, sensing, and control are inevitably present in real robot systems. These...
This thesis proposes a fine-motion planner for assembly tasks in the plane considering two degrees o...
Robots must successfully plan and execute tasks in the presence of uncertainty. Uncertainty arises...